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Everlube Products Achieve PFAS Compliance

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HOME / NEWS / EVERLUBE® PRODUCTS ACHIEVE PFAS COMPLIANCE 

 

EVERLUBE® PRODUCTS ACHIEVE PFAS COMPLIANCE WITH TRANSITION TO PTFE GRADES AND LAUNCH FLUOROPOLYMER-FREE DRY FILM LUBRICANT 

 

9 October 2024

 

PARAMUS, NJ – October 31, 2024 – Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, is proud to announce Everlube Products, a business of Curtiss-Wright, has successfully transitioned all Polytetrafluoroethylene (PTFE) raw materials to per- and polyfluoroalkyl substances (PFAS) compliant grades in response to increasing regulatory scrutiny on "forever chemicals." PFAS are endocrine-disrupting chemicals (EDCs) and have been termed ‘forever chemicals’ because of the time it takes our bodies to break them down. They are present in countless everyday items, including automotive, off-road vehicles, commercial aviation, chemical processing, and medical to semiconductor, aerospace, and defense. We are constantly exposed to them through what we breathe, touch, and eat, whether as end users or supply chain partners. Small but repeated exposures to PFAS can build up and eventually interfere with hormones, affecting a range of impacts from mood and sleep to blood pressure, metabolism, and reproduction.

With this transition, Everlube Products now meets both the US FDA's limit of less than 100 parts per million (PPM) and the European Union's more stringent limit of less than 25 parts per billion (PPB). The company's dry film lubricants are now fully aligned with these rigorous standards.

As part of its commitment to innovation and regulatory compliance, Everlube Products has also developed a completely fluoropolymer-free dry film lubricant, Everlube 6117, which an established OEM has thoroughly tested in the pump and valve industry. “Going beyond global regulatory standards and developing a fully fluoropolymer-free dry film lubricant is a significant milestone for Everlube® Products, and it reflects our dedication to offering high-quality, environmentally responsible solutions to our customers,” said David Rivellini, Vice President and General Manager of the Surface Technologies division.

About Everlube 6117

Everlube 6117 is a cutting-edge dry film lubricant designed explicitly for light-load applications. It effectively lubricates small-diameter fasteners and complies with strict US state regulations for 100% PFAS-free products suitable for potable water applications. This new product results from Everlube Products' continued investment in research and development, aimed at delivering advanced solutions that address both performance and environmental challenges. 

To learn more about Everlube Products:
https://everlubeproducts.com
To learn more about Curtiss-Wright Surface Technologies Engineered Coatings :
https://cwst.com/our-services/engineered-coatings

About Curtiss-Wright Corporation

Curtiss-Wright Corporation is a global innovative company that delivers highly engineered,critical function products and services to the commercial, industrial, defense and energy markets. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing reliable solutions through trusted customer relationships. The company employs approximately 8,600 people worldwide. For more information, visit www.curtisswright.com..

CWST Technical Marketing Team

 

Curtiss-Wright Launches Parylene Conformal Coating Capabilities in the United Kingdom

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HOME / NEWS / CURTISS-WRIGHT LAUNCHES PARYLENE CONFORMAL COATING CAPABILITIES IN THE UNITED KINGDOM

CURTISS-WRIGHT LAUNCHES PARYLENE CONFORMAL COATING CAPABILITIES IN THE UNITED KINGDOM

9 October 2024

 

PARAMUS, NJ – October 9, 2024 – Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, today announces the addition of parylene conformal coating capabilities in the UK.

Curtiss-Wright has expanded its comprehensive range of coating processes by introducing parylene conformal coatings at the well-established E/M® Coating Services facility in Evesham, Worcestershire, UK. This addition will enable Curtiss-Wright to offer more localized services to the UK supply chain, supporting both new and existing customers in the medical and electronics device manufacturing industries.

"We are thrilled to introduce parylene conformal coatings to our portfolio of engineered coatings at our Evesham, UK plant. Bringing this technology to the local market will improve efficiencies and create new business opportunities in the United Kingdom," said David Rivellini, Vice President and General Manager of the Surface Technologies division.

Medical applications benefit from parylene’s intrinsic properties of lubricity, biocompatibility and resistance to solvents, radiation and bacteria. Parylene is also well suited to ruggedizing high value printed circuit boards and electronic components due to its combination of high dielectric strength, moisture resistance, thin profile, and transparency. It is suitable for metals, elastomers,electronics, and plastics. An ultra-thin film polymer coating, parylene provides a uniform pinhole-free barrier coating to all shapes, edges, crevices, and recesses with the same thickness without suffering any of the edge effects of conventional coatings.

To learn more about Parylene Conformal Coating:
Parylene Coating | Curtiss-Wright Surface Technologies (cwst.com)
To learn more about Curtiss Wright Evesham Division UK :
Industrial Protective Coating Solutions from EM Coatings (emcoatingsuk.co.uk)

About Curtiss-Wright Corporation

Curtiss-Wright Corporation is a global innovative company that delivers highly engineered,critical function products and services to the commercial, industrial, defense and energy markets. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing reliable solutions through trusted customer relationships. The company employs approximately 8,600 people worldwide. For more information, visit www.curtisswright.com..

CWST Technical Marketing Team

 

PTFE VS Parylene – Which is the Better Choice for Dry Film Lubricious Medical Coatings?

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HOME / NEWS / PTFE VS PARYLENE – WHICH IS THE BETTER CHOICE FOR DRY FILM LUBRICIOUS MEDICAL COATINGS?

PTFE VS PARYLENE – WHICH IS THE BETTER CHOICE FOR DRY FILM LUBRICIOUS MEDICAL COATINGS?

7 December 2023

 

When it comes to solving non-release, dry sticking challenges, most design and manufacturing engineers will have experience with PTFE, and frequently turn to it to solve their problems.Traditionally PTFE has a lower coefficient of friction than Parylene. However Parylene has a comparable coefficient of friction with modern PFOA (C8)-free PTFE coatings. In many cases application-specific considerations make Parylene a better choice.

Particulate

PTFE, which is a relatively hard coating around R58, can be prone to chipping and flaking in certain conditions. The removal of PFOA (C8) from all PTFE used in medical device applications adds further adhesion challenges. Reports of poor adhesion and delamination on PTFE coated stainless steel guide wires and other mandrel type products have led to a number of voluntary recalls.
Parylene is a softer polymer (R80). When used in low friction applications, it will provide a higher yield, or reusability, and does not chip or flake in the same way PTFE does. Therefore, where particulate is a risk Parylene may be a better choice.

Complex Typographies

Parylene’s unique vapor-deposition process provides for a truly conformal ultra-thin coating. For lubricity in mandrels the typical Parylene coating thickness is ≈ 4µm and as low as 0.15µm for elastomers. By comparison, PTFE tends to be applied by spray or dip, which can be prone to pooling, bridging, and edge effect. Therefore Parylene is likely a better solution where dimensional tolerance is tight, and with parts that are more topographically complex.

Mechanical Wear

While there is good adhesion in both PTFE and Parylene mandrels, the selection of PTFE would seem a better option due to its hardness characteristics. However, wear characteristics depend on the operational application, as well as operator use; comparative performance testing provides the best data to make a long term choice for a specific application.
While Parylene in low friction applications will provide a higher yield in high friction, it will wear. For example, if tungsten were used for radiopacity in a peebax tip, when the peebax shrinks to a Parylene mandrel it will tear like sandpaper. PTFE rod in this case might be a better solution.
In laser welding applications, Parylene significantly outperforms PTFE, which cracks and flakes within short periods of use.

Sterilization methods

Parylene’s properties are largely unaffected by any sterilization method. PTFE is unsuitable for Gamma and does not perform too well with Autoclave. Where Gamma is used ETFE will be a better choice for catheter lumen and in this case a Parylene-coated introducer mandrel will compliment ETFE in release-ability. PTFE will not release from ETFE effectively.

Manufacturing and Coating Process

While PTFE is non-toxic, both hydrofluoric acid and carbon dioxide are among the toxic byproducts of its manufacturing process. It also releases hydrogen chloride and other toxic substances at high temperatures. As PTFE cures at high temperature it is not suitable for heat sensitive substrates such as Nitinol.
Parylene is a green chemistry. It is chemically inert and non-toxic. It produces no leechable ingredients, being free of catalytic, plasticizer and solvent residues. Parylene is applied at room temperature, so it will be the natural choice with heat-sensitive components and substrates.
Find out more about Parylene coating process.

Cost

The up-front cost of PTFE pre-coated spool wire is cheaper, and this often drives the decision in stainless steel single-use mandrels. Though for longer bare wires, non-rounds, and shaped parts, this difference is diminished. In many cases where there is potential reuse, Parylene will yield better results by reducing the overall unit cost.

Summary

The choice for a hydrophobic medical coating will depend on the application and its specific considerations. Both Parylene and PTFE have their pros and cons. Where both may initially seem like a good fit, comparative performance testing, using the intended application, will lead to better long-term decisions, as opposed to evaluating “paper-only” specifications.

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Curtiss-Wright’s Keronite Business Secures Nadcap Approval Certification

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HOME / NEWS / CURTISS-WRIGHT’S KERONITE BUSINESS SECURES NADCAP APPROVAL CERTIFICATION

CURTISS-WRIGHT’S KERONITE BUSINESS SECURES NADCAP APPROVAL CERTIFICATION

16 June 2023

PARAMUS, NJ – June 16, 2023 – Curtiss-Wright Surface Technologies Division today announced that its Keronite business, a world leader in plasma electrolytic oxidation (PEO) applications including a pioneering surface treatment that uniquely enhances the performance of light alloys, has successfully secured Nadcap accreditation for Chemical Processing at its Greenwood, IN facility.

Nadcap (National Aerospace and Defense Contractors Accreditation Program) is the aerospace industry’s global accreditation program designed to recognize special processors that integrate and maintain stringent Quality System and process control standards. Pursuit of Nadcap accreditation demonstrates an organization’s desire to mitigate customer risk and promote product safety. Keronite joins more than 45 other Curtiss-Wright Surface Technologies Business Units that are Nadcap accredited.

Commenting on the approval, David Rivellini, Senior Vice President and General Manager, Curtiss-Wright Surface Technologies Division, noted: “We’re incredibly proud to earn Nadcap accreditation for Chemical Processing. This approval is a testament to our unwavering
commitment to quality, our continuous improvement of manufacturing standards, our innovative processes, and the development of new technology.”
Keronite’s PEO technology enhances the performance of light alloys and is utilized across various aerospace applications, ranging from large-cast structural components to geometricallycomplex components. PEO-coated components are frequently used as a lightweight alternative
to heavier metals, a strategy employed across the industry to improve aircraft fuel economy. Notably, aerospace manufacturers have extensively adopted this technology to combat corrosion, dry-sliding wear and as an eco-friendly alternative to toxic chromate conversion coatings.

Rivellini concluded, “Curtiss-Wright is committed to delivering the best possible technologies and breakthrough applications, while providing our customers an opportunity to utilize unique surface treatment applications offering corrosion protection, wear resistance, and other properties, such as thermal and electrical insulation. This recognition underscores the quality of our processes within the industry, while also creating more opportunities to expand our footprint in the aerospace sector.”

In November 2022, Keronite was acquired by Curtiss-Wright Corporation. The business is now a part of Curtiss-Wright Surface Technologies, within its Engineered Coatings Business Unit, empowering aerospace manufacturers worldwide to benefit from a comprehensive range of solutions for an extensive array of applications.

To learn more about PEO, or understand how it could bolster the performance of light alloys in your designs, reach out to our team of experts or read our flagship white paper, ‘What is Plasma Electrolytic Oxidation?’ To discover more about this revolutionary technology: https://blog.keronite.com/what-is-plasma-electrolytic-oxidation

To learn more about Keronite, please visit: www.keronite.com
To learn more about Curtiss-Wright Surface Technologies, please visit: cwst.com
To view/download the press release

About Curtiss-Wright Corporation
Curtiss-Wright Corporation (NYSE:CW) is a global integrated business that provides highly engineered products, solutions and services mainly to Aerospace & Defense markets, as well as critical technologies in demanding Commercial Power, Process and Industrial markets. We leverage a workforce of 8,100 highly skilled employees who develop, design and build what we believe are the best engineered solutions to the markets we serve. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing innovative solutions through trusted customer relationships. For more information, visit www.curtisswright.com

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Curtiss-Wright Announces New Surface Technologies Facility in Hyderabad, India

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HOME / NEWS / CURTISS-WRIGHT ANNOUNCES NEW SURFACE TECHNOLOGIES FACILITY IN HYDERABAD, INDIA

CURTISS-WRIGHT ANNOUNCES NEW SURFACE TECHNOLOGIES FACILITY IN HYDERABAD, INDIA

10 March 2023

PARAMUS, NJ – March 10, 2023 – Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, announces the opening of its Hyderabad, India facility. In addition to the existing facility in Bangalore, India, this facility will be a new hub for aero structure and MRO operations as well as support the growing power generation industry. It will offer a wide variety of services from shot peening to dry blasting, correction of distortion, and boiler tube ID peening, to support the local market and industries.

David Rivellini, Senior Vice President and General Manager, Curtiss-Wright Surface Technologies Division, says “The need to have a second location in Hyderabad is because India is the 3rd largest and fastest growing aviation market in terms of domestic tickets sold, and this is a core industry for the country. This new facility will support the growing aerospace sector and provide surface technologies services to ensure aircraft components are protected from stress corrosion cracking and other common problems they face under extreme heat and thermal variations. We will also be supporting power generation, industrial and off highway vehicles from this facility.”

To learn more about Curtiss-Wright Surface Technologies, please visit: cwst.com
To learn more about our Hyderabad Facility and offerings, please visit: https://www.cwst.co.uk/home/india/hyderabad/

About Curtiss-Wright Corporation
Curtiss-Wright Corporation (NYSE:CW) is a global integrated business that provides highly engineered products, solutions and services mainly to Aerospace & Defense markets, as well
as critical technologies in demanding Commercial Power, Process and Industrial markets. We
leverage a workforce of approximately 8,100 highly skilled employees who develop, design and
build what we believe are the best engineered solutions to the markets we serve. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing innovative solutions through trusted customer relationships. For more information, visit www.curtisswright.com.

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Curtiss-Wright Adds Acrylic and Urethane to its Conformal Coating Offerings

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HOME / NEWS / CURTISS-WRIGHT ADDS ACRYLIC AND URETHANE TO ITS CONFORMAL COATING OFFERINGS

CURTISS-WRIGHT ADDS ACRYLIC AND URETHANE TO ITS CONFORMAL COATING OFFERINGS

8 December 2022

 

PARAMUS, NJ – December 8th, 2022 – Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, announced that its Aliso Viejo, CA location has added liquid coating capability to its conformal coatings family of services.

In addition to its parylene conformal coating offerings, the Aliso Viejo, CA facility now offers automated, spray-on liquid acrylic and urethane materials. The equipment offers some of the newest technologies for the application of liquid conformal coating, delivering more reliable, uniform and consistent results.
Acrylic and Urethane conformal Coatings

Acrylic and urethane conformal coatings are commonly used surface protection mechanisms for printed circuit board and electronics applications. These types of conformal coatings are recognized by industry standards such as MIL-I-46058 and IPC-CC-830.

Acrylic and urethane conformal coatings are used extensively within the defense, commercial aerospace, automotive and other industries. The application and functionality of the device being coated drives the selection of conformal coating family (e.g., parylene, acrylic or urethane) and also the most effective type/grade within these coating families.

“With the addition of liquid coatings, Curtiss-Wright Surface Technologies has now positioned ourselves as a one-stop shop for customers’ conformal coating requirements, said David Rivellini”, Senior Vice President and General Manager, Curtiss-Wright Surface Technologies. “Our extensive experience with parylene coatings lends itself perfectly to this synergistic conformal coating expansion”.

To learn more about Curtiss-Wright Surface Technologies, please visit: cwst.com
To learn more about our conformal coating offerings, please visit: cwst.com/acrylic-urethane-conformal-coatings/

About Curtiss-Wright Corporation
Curtiss-Wright Corporation (NYSE:CW) is a global integrated business that provides highly engineered products, solutions and services mainly to Aerospace & Defense markets, as well as critical technologies in demanding Commercial Power, Process and Industrial markets. We Curtiss-Wright Corporation · Page 2 leverage a workforce of 8,000 highly skilled employees who develop, design and build what we believe are the best engineered solutions to the markets we serve. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing innovative solutions through trusted customer relationships. For more information, visit www.curtisswright.com.

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Curtiss-Wright Acquires Keronite Group Limited

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HOME / NEWS / CURTISS-WRIGHT ACQUIRES KERONITE GROUP LIMITED

CURTISS-WRIGHT ACQUIRES KERONITE GROUP LIMITED

16 November 2022

A Leading Global Supplier of Plasma Electrolytic Oxidation Surface Treatment Coatings

DAVIDSON, N.C.–(BUSINESS WIRE)– Curtiss-Wright Corporation (NYSE: CW) today announced that it has completed the acquisition of the stock of Keronite Group Limited (Keronite) for $35 million in cash. Keronite is a leading provider of Plasma Electrolytic Oxidation (PEO) surface treatment applications offering corrosion protection, wear resistance, thermal protection and electrical insulation for the defense, commercial aerospace and industrial vehicle markets, and also in semiconductor manufacturing.

Keronite is expected to generate sales of approximately $9 million in 2022 and is expected to be neutral to Curtiss-Wright’s adjusted diluted earnings per share in its first full year of ownership, excluding first year purchase accounting costs, and produce a strong free cash flow conversion rate of approximately 100%. The acquired business will operate within Curtiss-Wright’s Aerospace & Industrial segment.

“The acquisition of Keronite increases the breadth of our surface treatment services portfolio with unique and complementary coatings technologies recognized for their critical performance in severe service environments,” said Lynn M. Bamford, Chair and CEO of Curtiss-Wright Corporation. “The combination of this business with Curtiss-Wright’s long-standing customer relationships and global sales channels provides strong alignment to the strategic priorities as highlighted at our 2021 investor day and is expected to yield significant opportunities for long-term profitable growth.”

Keronite’s PEO surface treatment process utilizes a bath-based method of producing ceramic layers on light alloys such as aluminum, magnesium and titanium to enhance their inherent performance characteristics. As the surface is oxidized, it incorporates an electrolyte thereby giving the coating specialized characteristics that are tailored to the specific application. Through Keronite’s process, lightweight metals are afforded the wear and performance properties of high-weight materials such as carbide or steel in a more environmentally-friendly manner, and are well-suited to support demanding applications such as aerospace or electric vehicle programs.

Keronite, which was founded in 2000 and employs nearly 45 people, is based in Cambridge, UK, and also maintains operations in Greenwood, Indiana.

About Curtiss-Wright Corporation

Curtiss-Wright Corporation (NYSE:CW) is a global integrated business that provides highly engineered products, solutions and services mainly to Aerospace & Defense markets, as well as critical technologies in demanding Commercial Power, Process and Industrial markets. We leverage a workforce of 8,000 highly skilled employees who develop, design and build what we believe are the best engineered solutions to the markets we serve. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing innovative solutions through trusted customer relationships. For more information, visit www.curtisswright.com.

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for the future opportunities associated with the acquisition, the success of transferring Keronite’s technology throughout our existing world-wide network, and the success of the Company integrating Keronite into its Aerospace & Industrial segment are not considered historical facts and are considered forward-looking statements under the federal securities laws. Such forward-looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US government spending; an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to the Company’s current SEC filings under the Securities Exchange Act of 1934, as amended, for further information.

Jim Ryan
(704) 869-4621
[email protected]

Source: Curtiss-Wright Corporation

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Curtiss-Wright Surface Technologies Launches New Antimicrobial Deep Clean Coating

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HOME / NEWS / CURTISS-WRIGHT SURFACE TECHNOLOGIES LAUNCHES NEW ANTIMICROBIAL DEEP CLEAN COATING

CURTISS-WRIGHT SURFACE TECHNOLOGIES LAUNCHES NEW ANTIMICROBIAL DEEP CLEAN COATING

24 June 2022

PARAMUS, NJ – June 24, 2022 – Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, today announces the launch of a new antimicrobial Everlube® coating product, Fluregiene 200™.

Curtiss-Wright Surface Technologies has partnered with BioCote® to expand their fluoropolymer coating product range to create Fluregiene 200™, an antimicrobial coating that is ideally suited for many surfaces and environments.

Based on existing Everlube® coating technology, the new Fluregiene 200™ is a unique fluoropolymer coating that offers low friction, easy-clean properties combined with superb chemical and abrasion resistance. With a view to improving hygiene standards, Curtiss-Wright Surface Technologies has integrated BioCote® antimicrobial technology to protect the coating from microbes such as bacteria, mold and fungi. Benefits of applying antimicrobial technology into the Fluregiene 200™ include:

Anti-fouling

  • Low COF Surface coating (0.08 – 0.2 static)
  • Corrosion resistance and excellent chemical resistance
  • Excellent chip and abrasion resistance
  • Reduces and prevents build-up of contaminates
  • Excellent flexibility
  • Dirt and debris less likely to attach to the surface

Microbial & bacteria growth inhibitor

  • Using patented BioCote® antimicrobial technology against microbial growth
  • Inhibits and reduces microbial growth on protected coating
  • Protects treated surfaces against bad odors, staining and material degradation

Easy clean and reduced cleaning intervals

Provides continual microbial reduction on coating
High PTFE content allows easy wipe down and cleaning
Provides more hygienic and cleanable surface than brushed or finished steels

Applicable to a wide range of applications such as door handles, elevator buttons, airport seating and gym equipment, the Fluregiene 200™ will be highly beneficial for these surfaces. BioCote® also has data to support the application of this antimicrobial technology in environments such as health care, transport, education, public areas and much more.

To learn more about Curtiss-Wright Surface Technologies please visit: cwst.com

To learn more about Fluregiene 200™ Antimicrobial coating visit:
Introducing Fluregiene 200™ an antimicrobial coating from CWST

To learn more about Everlube ®, please visit:
Everlube Products — A Business Unit of Curtiss-Wright

To learn more about BioCote ®, please visit:
Antimicrobial Technology | Antimicrobial Additives | BioCote Ltd

About Curtiss-Wright Corporation
Curtiss-Wright Corporation (NYSE:CW) is a global integrated business that provides highly engineered products, solutions and services mainly to Aerospace & Defense markets, as well as critical technologies in demanding Commercial Power, Process and Industrial markets. We leverage a workforce of 7,800 highly skilled employees who develop, design and build what we believe are the best engineered solutions to the markets we serve. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing innovative solutions through trusted customer relationships. For more information, visit www.curtisswright.com.

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Curtiss-Wright Announces Successful Verification of Laser Peening Process on Lockheed Martin F-35B Fighter Jet

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HOME / NEWS / CURTISS-WRIGHT ANNOUNCES SUCCESSFUL VERIFICATION OF LASER PEENING PROCESS ON LOCKHEED MARTIN F-35B FIGHTER JET

CURTISS-WRIGHT ANNOUNCES SUCCESSFUL VERIFICATION OF LASER PEENING PROCESS ON LOCKHEED MARTIN F-35B FIGHTER JET

24 March 2022

DAVIDSON, N.C.–(BUSINESS WIRE)– Curtiss-Wright Corporation (NYSE: CW) today announced the successful verification of the Curtiss-Wright Laser Peening process on the airframe components of the fifth-generation F-35 fighter jet. Curtiss-Wright has been selected to help extend the life expectancy of the F-35B, the short takeoff-vertical landing (STOVL) variant flown by the U.S. Marine Corps and other allied nations around the world, by utilizing its critical Laser Peening process. The verification was implemented by the Fleet Readiness Center East (FRCE) at the Marine Corps Air Station Cherry Point, NC and the first F-35B to undergo the treatment has been successfully returned to the fleet.

“Curtiss-Wright is honored to be part of this milestone through the utilization of our critical surface treatment applications, building on our commercial and industrial capabilities to support the military’s premier fighter jet program,” said Lynn M. Bamford, President and CEO of Curtiss-Wright Corporation. “We are excited to be part of the team that returned the first laser peened F-35B back to active service, and we look forward to a long and successful relationship with all of the stakeholders involved on other F-35 variants.”

The Laser Peening process was developed by the Curtiss-Wright Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services. Laser Peening strengthens the aircraft’s frame without adding any additional material or weight, which would reduce its capability by limiting its fuel or weapons carrying capacity. The technology has wide applications across the defense, commercial aerospace, commercial nuclear and industrial markets.

A recently published FRCE press release talks about the successful completion of the verification and return to service of the first aircraft to undergo the procedure. In the press release Ike Rettenmair, the interim Fixed Wing Division director at FRCE, said “the teamwork between FRCE, the F-35 Joint Program Office, Lockheed Martin, Curtiss-Wright Surface Technologies and Northrup Grumman Corporation helped make the effort successful. We have a great partnership between the working entities and that makes all the difference.”

The verification marks FRCE as the first facility in the world capable of conducting on-site laser peening modification on an F-35 aircraft. A second facility, Ogden Air Logistics Complex at Hill Air Force Base, Utah, is now also fully operational and the first F-35B will be processed at that facility starting in April of 2022, followed shortly thereafter by the F-35C.

For more information about Curtiss-Wright’s Surface Technologies Division, please visit https://cwst.com.

About Curtiss-Wright Corporation

Curtiss-Wright Corporation (NYSE:CW) is a global integrated business that provides highly engineered products, solutions and services mainly to Aerospace & Defense markets, as well as critical technologies in demanding Commercial Power, Process and Industrial markets. We leverage a workforce of 7,800 highly skilled employees who develop, design and build what we believe are the best engineered solutions to the markets we serve. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing innovative solutions through trusted customer relationships. For more information, visit www.curtisswright.com.

Jim Ryan
(704) 869-4621
[email protected]

Source: Curtiss-Wright Corporation

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Curtiss-Wright Surface Technologies Virtual Exhibition Stand

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HOME / NEWS / CURTISS-WRIGHT SURFACE TECHNOLOGIES VIRTUAL EXHIBITION STAND

CURTISS-WRIGHT SURFACE TECHNOLOGIES VIRTUAL EXHIBITION STAND

21 January 2022

We’ve really missed you!

Curtiss-Wright Surface Technologies have been unable to welcome visitors to our exhibition stands and events for over a year now and we hope this will change in the not too distant future!

In the meantime we would love the opportunity to showcase our world leading processes and surface treatments for you through our new fully interactive virtual exhibition stand from the comfort of your office, garden or sofa!

You will find examples of some of the critical parts and materials we process along with video presentations, animations and information on how we can help be your single source for critical surface treatments.

You can find contact information for all of our surface treatment experts and facility locations from the components on display and we look forward to assisting you with your applications and design challenges.

Now take a look!

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Substrate Cleaning – Imperative for Effective Parylene Coating

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HOME / NEWS / SUBSTRATE CLEANING – IMPERATIVE FOR EFFECTIVE PARYLENE COATING

SUBSTRATE CLEANING – IMPERATIVE FOR EFFECTIVE PARYLENE COATING

19 August 2021

by Gustavo Arredondo, Technical Manager at Para Tech Coating

Complex electronic circuit assemblies that are destined to operate under rigorous conditions require effective electrical, chemical, vapor and moisture isolation. Parylene coating provides these protective properties as a very thin, low-mass encapsulating film. However, the durable protective value of Parylene depends on the film adhesion, which in turn depends strictly on the cleanliness of surfaces to be coated.

Cleaning-related issues may not be immediately apparent in assemblies ready for coating, but the long-term consequences of contamination may degrade the mission of the systems in which they are used, and are costly to resolve. The failure of critical assemblies can also seriously damage the reputation of an equipment supplier, and have a negative impact on future business.

Parylene Coating

Unlike typical liquid coatings that are applied by dipping or spraying, Parylene coating is accomplished in a vapor phase chemical vacuum deposition process. This involves cross-link polymerization at the molecular level, with a powdered raw material converted to gaseous form and then directly polymerized as a transparent film on assembly surfaces. There is no intermediate liquid phase. The finished film is absolutely conformal, since it develops with equal thickness and at a fixed rate on flat areas as well as around edges and in crevices.

Organic or non-organic production-related contaminants remaining on assemblies can disrupt the Parylene film-to-surface bond, causing de-lamination and compromising coating protection. Additionally, substrates with outgassing components can leach out residue during the deposition process, cross-contaminating surfaces and preventing a direct bond with the reactive monomer.

Following Industry Standards

Visual inspection alone is not sufficient to confirm the readiness of an assembly for Parylene coating. It is crucial to consistently measure, monitor and inspect every production run in order to avoid costly cleaning issues. CWST follows a sampling process of 10% of assemblies in a production run to confirm the readiness of a customer’s assemblies for Parylene coating, per IPC-J-STD-001.

This in-process circuit assembly handling seeks quality and reliability levels that support uninterrupted operation in the harshest environments. The IPC-J-STD-001 target for surface cleanliness is 10µgm NaCl/in2 or less. Surprisingly, this standard of performance is as important to reliability in demanding commercial applications as it is for military and aerospace assemblies. A compromise of this standard puts assemblies at risk and is not advised, even for commercial applications. If contamination problems are indicated during sampling, the customer is so advised, and CWST can assist with failure analysis, testing, and defining optimal cleaning techniques.

The IPC-J-STD-001 target for surface cleanliness is 10µgm NaCl/in2 or less. This in-process inspection for circuit assembly handling seeks quality and reliability levels that support uninterrupted operation in the harshest environments. The IPC-J-STD-001 target for surface cleanliness is 10µgm NaCl/in2 or less. Surprisingly, this standard of performance is as important to reliability in demanding commercial applications as it is for military and aerospace assemblies. A compromise of this standard puts assemblies at risk and is not advised, even for commercial applications. If contamination problems are indicated during sampling, the customer is so advised, and CWST can assist with failure analysis, testing, and defining optimal cleaning techniques.

Assemblies produced with a so-called ‘no clean’ flux may appear to be contaminant-free, but residues generally remain that will compromise results. The term “no-clean” is a misnomer as it applies to the standard of performance required for Parylene. Remnants of no-clean flux are difficult to inspect visually, but will turn white in an alcohol bath used to prepare substrates for Parylene deposition. Dissolved residues will contaminate subsequent assemblies and create rework issues and production delays.

PARYLENE CONFORMAL COATINGS

DIMER RAW MATERIALS

Why Cleanliness is Important

There are two primary classifications of printed circuit board contaminants: organic and non-organic residues. Trace organic remnants act as natural release agents, disrupting the bond between Parylene film and underlying surfaces. This compromised adhesion may not be immediately apparent, but the film can eventually delaminate as a result of thermal cycling or mechanical stress, thus neutralizing the protective benefits of the coating. Non-organic residues are electrically conductive, and can form current leakage paths under the coating that will disturb the functions of an electronic assembly.

The most common challenge to Parylene film adhesion on circuit assemblies is flux residue. Other, less common but serious contaminants include various chemical residues, halides, leached plastics, waxes, light hydrocarbon and silicone oils, adhesive residues, dust and fingerprints. CWST routinely conducts a rudimentary alcohol and de-ionized water wash sequence on all assemblies to be Parylene coated to remove minor oils and fingerprints. However, sophisticated chemical analysis is required to detect and identify other contaminants.

Contamination Assessment

Ionic Exchange Chromatography is an effective analytical technique for qualifying inorganic contaminating residues such as chloride, fluoride, potassium and sodium. This technique separates ions and polar molecules based on electrical charge, identifying specific contaminants so that an appropriate solvent and cleaning system combination can be selected.

Organic contaminants such as silicon oils and mold release agents require a separate technology for detection and identification. Fourier Transform Infrared Spectroscopy (FTIR), a complex analytical instrument, can differentiate between organic and inorganic contaminants, and then identify specific organic chemical compounds. FTIR testing is based on comparing spectrum results to a database of known materials.

Gas Chromatography testing is also used to detect and identify organic contaminants. This process is capable of separating an unknown liquid mixture into its individual components and specifying each component. The process involves volatilizing a test sample in a carrier gas stream. A variation of gas chromatography combines this regimen with mass spectroscopy, offering the additional ability to characterize unknown, complex organic chemical mixtures.

Cleaning Options – Methods and Materials

There are numerous cleaning agents that can be used once contaminants have been precisely identified. The appropriate solvent can be selected for use in a spray, solvent immersion, ultrasonic, vapor-degreasing, media blasting, tumbling, or even hand-wipe cleaning process, depending on the nature of the cleaning challenge.

Simple detergent cleaning is generally adequate for soluble contaminants, while less soluble materials require more complex solvents. The objective is to use cleaning materials that are non-hazardous, non-toxic and VOC free. The cleaning technique can be solvent-based, semi-aqueous based, aqueous based, or solvent/aqueous based.

In the past, solvent options were limited to environmentally objectionable fluids such as chlorofluorocarbon or chlorinated hydrocarbon fluids. Fortunately a number of advanced cleaning agents and recycling methods have been developed in recent years that safely and effectively address contamination challenges in electronic manufacturing. Solvent alternatives include non-chelating, non-phosphate, biodegradable cleaners, non-chlorinated solvent cleaners, non-glycol based solvent cleaners, hydrocarbon based formulations, methyl ethyl, isopropyl, aqueous-based alkaline cleaners and deionized water.

Circuit cleaning is a multi-step process, and may be required prior to stenciling and solder reflow, following reflow, and after any post-reflow activities, including any unscheduled rework. At every step, it is imperative to confirm solvent compatibility with all devices and components in the electronic assembly to avoid solvents that are conductive or corrosive.

Designing for Success

Conventional SMT circuit assemblies present fewer cleaning challenges than more complex devices with soldered assemblies added after the SMT reflow and cleaning steps, although even basic surface-mount components have the potential to trap residues. Items such as protective cages or heat sinks may include small gaps, crevices or other physical features that entrap flux residues.

Attention given to the potential for hidden residue entrapment during the assembly design phase will help minimize contamination issues in production. Careful design can save downstream costs and reduce potential warranty issues. Some manufacturers find it useful to conduct detailed cleaning and contamination review at the prototype level, well before an assembly reaches full production.

Careful post-production cleaning is critical for every assembly, especially complex devices. Manufacturers need to determine through experience and measurement how best to orient assemblies in the cleaning chamber, and where to locate and direct spray nozzles so as to dependably remove contaminating residues.

Reference: A study titled “Solvent Substitution For Electronic Assembly Cleaning” has been conducted by Sandia National Laboratories (M.C. Oborny, E.P. Lopez, D. E. Peebles and N. R. Sorensen) to analyze alternate solvents for a range of circuit assembly contaminants.

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Fleet Readiness Center East inducts first F-35B for laser peening modification; procedure boosts readiness by strengthening aircraft frame

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HOME / NEWS / FLEET READINESS CENTER EAST INDUCTS FIRST F-35B FOR LASER PEENING MODIFICATION; PROCEDURE BOOSTS READINESS BY STRENGTHENING AIRCRAFT FRAME

FLEET READINESS CENTER EAST INDUCTS FIRST F-35B FOR LASER PEENING MODIFICATION; PROCEDURE BOOSTS READINESS BY STRENGTHENING AIRCRAFT FRAME

19 February 2021

Heather Wilburn
Fleet Readiness Center East

MARINE CORPS AIR STATION CHERRY POINT, N.C. – Fleet Readiness Center East marked a milestone with the induction of the first F-35B Lightning II aircraft to undergo laser peening modifications, and leaders anticipate the new workload will keep the facility engaged for the next several years.

The laser peening process takes place in a new, 16,000-square-foot facility that comprises two bays and a connected area housing the laser generator. The purpose-built, $6 million facility gives FRCE a capability for F-35 aircraft that will exist at only one other location in the world. The process, which has been utilized on the F-22 Raptor and in manufacturing aircraft components, uses high-energy laser pulses to strengthen materials without adding additional metal or weight, which results in increased aircraft lifespan and reduced maintenance costs.

“We’re excited to get this program under way at Fleet Readiness Center East and work toward providing the Marine Corps with F-35B aircraft capable of meeting their full life limit,” said FRCE Commanding Officer Capt. Mark E. Nieto. “This laser peening facility is a strategic asset that will allow us to provide support for the F-35B that’s not available anywhere else in the world.”

Ike Rettenmair, F-35 branch head at FRCE, said work on this first F-35B inducted for laser peening should conclude in early spring. Once that aircraft reaches completion, a second F-35B will follow closely behind, with the workload scheduled to ramp up to a full load shortly thereafter. While not every F-35B requires the procedure, many do – which will keep the laser peening operation busy for quite some time.

“By late spring, we should get to the point where we are running at full capacity,” explained Matt Crisp, FRCE site lead for the F-35 Joint Program Office. “And that will take us through many years of laser peening modifications to the F-35B. We’ll have the facility full with that workload.”

When an F-35B rolls in for laser peening modifications, FRCE’s aircraft maintenance professionals first work to disassemble the aircraft and remove the appropriate parts to allow access to the areas of the frame that need strengthening. Contractors with the company that developed and conducts the laser peening process take it from there.

“They elevate the airplane into the air, and then the robots take over once the contractors program the visit, which is what they call the procedure where they actually shoot the lasers at the airplane,” Rettenmair explained.

The contractor has installed and activated specially engineered equipment in the laser peening facility, and will use that equipment to treat locations on the aircraft’s bulkhead and airframe, said Brent Dane, director of laser technology for Curtiss-Wright Surface Technologies, which developed the process. Brand new bulkheads built into new F-35B aircraft receive the same treatment at the company’s laser peening facility in California, so new F-35 fighters benefit from the same increase in performance and lifetime extension right off the assembly line, he added.

During laser peening, a high-energy laser beam is fired at the metal, which creates an area of plasma on the metal’s surface. The impact creates a shock wave, which travels through the metal, and compressive residual stresses remain. This compression helps improve the metal’s damage tolerance, fatigue life and strength, leading to a more durable product.

“It strengthens the base material without us having to go in and add additional material – which would increase the weight of the airplane, which is not a good option – or remove and replace these parts, which also isn’t really an option when the piece is integral to the structure of the aircraft,” Crisp said. “This procedure is a good solution to strengthen what’s already there.”

The end result is aircraft that have been reinforced without adding additional weight, which would reduce the fighter’s capabilities by limiting its fuel or weapons carrying capacity. Because of this, the laser peening procedure is well-suited to the treatment of safety critical components in military applications, Dane said. It provides increased reliability and life extension not available from any other surface treatment on the market today.

Once the contractor completes the laser peening procedure, the aircraft goes back to FRCE’s F-35 line for reassembly, just like all the other aircraft that come through the facility, Rettenmair explained. FRCE will put the jets back together, perform all the flight test functions and get them back out to the fleet. Rettenmair said he expects some flexibility in the anticipated turnaround time for the laser peening procedure
during this first run.

“It’s kind of a learning experience for everyone,” he noted.

Any first-time modification will have a bit of a buffer built into the timeline, Crisp added. The goal is to first perfect the process and then start improving its efficiency.

“When it’s the first time you’re conducting a modification – the first time that anybody is ever doing it – we’re going to find some things we need to address or change, update or improve,” he said. “Then, as time goes on, we look for that continuous improvement to drive that timeline back as far as we can, expedite the process and make it happen even faster.”

Optimizing the laser peening timeline will be important as FRCE continues to conduct the process over the next few years, Crisp added, in order to provide the strengthening procedure to the aircraft that need it when they need it, in order to prevent delays or degradation.

“From a Navy-Marine Corps perspective, this is really big deal. It’s going to help get the Marine Corps’ aircraft back to where they wanted it to be, and it’s going to give the airplanes the full life expected of them,” he explained. “The timeline is critical, but right now we have a path to green, if you will. We can get all these aircraft healthy by the time they need to be healthy.”

In addition to boosting readiness within the F-35B fleet, leaders within the F-35 program hope the procedure can also benefit other areas of naval aviation. Laser peening has expanded over more than 20 years from use on jet engine components for commercial aviation to other components to the F-22 Raptor and, now, the F-35 Lightning II. The process itself has undergone notable advancements in engineering design and modeling, beam delivery and process automation during this same period, Dane said.

“Our engineering development and production teams are proud to deliver the benefits of this unique technology to a wide range of important applications, particularly those that contribute to our military defense,” Dane added. “We look forward to ever-growing applications of this technology for critical military assets to strengthen our nation’s defense and help protect the safety of the warfighter.”

Locally, Rettenmair and Crisp encourage the workforce within the F-35 program, and at other aircraft and component lines, to search for potential uses for laser peening.

“A lot of folks don’t know this technology even exists, so having it right in our own back yard could be the catalyst they need to consider other uses for laser peening,” Rettenmair said. “It’s absolutely a great asset, and I hope it can broaden our horizons on the type of technology that’s out there.”

Crisp agreed the unique technology provides FRCE with an exclusive opportunity.

“I think we have to challenge ourselves,” he said. “FRCE has been able to benefit from having the Joint Program Office contract this technology to come in and help get the facility set up – there’s been a lot of work, obviously, to get to this point.

“Now that we have this capability here at FRCE, I’m hopeful there is a potential that other activities here can look at this capability in a way that considers whether it could be right for their program, maybe to extend the life of another asset that’s already in the Navy-Marine Corps inventory. I hope we can take this experience we have in front of us and not just move on to something else at the end, but learn from the experience, create engagement and apply it in other locations that need a solution.”

In addition to offering development opportunities for other programs, the laser peening workload also represents the beginning of an expansion in the F-35 program at FRCE, Crisp noted.

“We have growth requirements within the next few years to go beyond what facilities and capabilities we have now,” he said. “For the stability of the program in the area and the economic outlook, it looks really good.”

FRCE is the lead site for depot-level maintenance on the F-35B Lightning II and has conducted modifications and repair on the Marine Corps’ short takeoff-vertical landing variant of the aircraft since 2013. The facility has also worked with the F-35A (conventional takeoff and landing) and F-35C (carrier) variants.

FRCE is North Carolina’s largest maintenance, repair, overhaul and technical services provider, with more than 4,000 civilian, military and contract workers. Its annual revenue exceeds $1 billion. The depot generates combat air power for America’s Marines and naval forces while serving as an integral part of the greater U.S. Navy; Naval Air Systems Command; and Commander, Fleet Readiness Centers.

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Curtiss-Wright Announces New US Patent for “High Fatigue Strength Components Requiring Areas of High Hardness”

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HOME / NEWS / CURTISS-WRIGHT ANNOUNCES NEW US PATENT FOR “HIGH FATIGUE STRENGTH COMPONENTS REQUIRING AREAS OF HIGH HARDNESS”

CURTISS-WRIGHT ANNOUNCES NEW US PATENT FOR “HIGH FATIGUE STRENGTH COMPONENTS REQUIRING AREAS OF HIGH HARDNESS”

16 November 2020

Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, is proud to announce our newly issued US Patent Number 10,619,222 entitled “High Fatigue Strength Components Requiring Areas of High Hardness”.

For applications in gears, splines and torqueing devices where wear and bending fatigue strength are critical, metal components are typically hardened to levels as high as HRC 60 which minimizes the wear of the contact surfaces. Although high hardness generally means high yield strength and thus high fatigue strength, as the material hardness exceeds HRC 50, ductility begins to decrease thereby actually reducing fatigue strength. Component features such as the teeth of gears and the splines of drive shafts, need high hardness in areas of wear but also critically need high fatigue strength in the roots of a gear tooth or spline.

In an effort to develop components with optimum wear and fatigue strength, Curtiss-Wright has invented a hybrid manufacturing approach where for example gear teeth are hardened to highest levels in faces and flanks but root areas are only hardened to the level optimizing ductile yield strength. Then, laser or shot peening is applied to optimize overall fatigue strength. This process provides a gear or other component with characteristics of a highest level of wear while attaining superior fatigue strength.

Click to view the patent

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Curtiss-Wright Recognized as a Whitford Recommended Coater

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HOME / NEWS / CURTISS-WRIGHT RECOGNIZED AS A WHITFORD RECOMMENDED COATER

CURTISS-WRIGHT RECOGNIZED AS A WHITFORD RECOMMENDED COATER

11 November 2020

Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, announced that its Lombard, IL location is recognized as a Whitford Recommended Coater.

The Whitford Recommended Coater program recognizes custom coaters who meet certain criteria. Among the standards that need to be met are:

Knowledge of Whitford coatings and experience in applying them
Completion of a Whitford training course held at the Whitford Worldwide headquarters
Solid quality assurance procedures must be in place

Whitford is well known for their varied line of Xylan high-performance fluoropolymer coatings. These functional coatings are a matrix of high-temperature organic polymers and organic or inorganic, dry-film lubricants that are formulated to provide unique and desirable properties. They can “work” under heavy loads, at high-temperatures, in chemical and corrosive environments, and in almost any combination thereof. Examples of common Xylan coatings include:

Xylan 1010
A low-friction coating, Xylan 1010 has excellent chemical resistance. It is also NSF-61 approved and as such can be used with potable water applications.

Xylan 1014
With more bonding resin than the Xylan 1010, Xylan 1014 has a harder, more abrasion resistant finish that is glossier and less porous.

Xylan 5230
A chrome-free coating that is RoHS compliant, Xylan 5230 is specified by the auto industry for the protection of components from corrosion caused by road salt, acid rain, and other forms of environmental corrosion.

Xylan 5251
Similar to 5230 in regards to corrosion protection, Xylan 5251 Silver is primarily used for fasteners.

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Curtiss-Wright’s Everlube® R-75 Certified to NSF-61

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HOME / NEWS / CURTISS-WRIGHT’S EVERLUBE® R-75 CERTIFIED TO NSF-61

CURTISS-WRIGHT’S EVERLUBE® R-75 CERTIFIED TO NSF-61

29 September 2020

Curtiss-Wright Surface Technologies today announced that its Everlube® R-75 coating is NSF/ASNI 61 certified. Everlube® R-75—a PTFE, Solid Film Lubricant—is the ideal coating for manufacturers that make products that come into contact with drinking water. This versatile coating offers excellent wear life, release and thermal stability properties. Everlube® R-75 is ideal for lighter load carrying applications and is RoHS compliant.

NSF/ANSI Standard 61 (NSF-61) is a set of national standards that relates to water treatment and establishes stringent requirements for the control of equipment that comes in contact with either potable water or products that support the production of potable water.

To learn more about NSF/ASNI/CAN 61, please visit:
https://www.nsf.org/testing/water/municipal-water-systems/nsf-ansi-can-61

To learn more about Everlube® R-75, read here

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Curtiss-Wright Selected by Michigan State University to Provide Laser Peening with Thermal Microstructure Engineering Technology on U.S. Department of Energy Program

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HOME / NEWS / CURTISS-WRIGHT SELECTED BY MICHIGAN STATE UNIVERSITY TO PROVIDE LASER PEENING WITH THERMAL MICROSTRUCTURE ENGINEERING TECHNOLOGY ON U.S. DEPARTMENT OF ENERGY PROGRAM

CURTISS-WRIGHT SELECTED BY MICHIGAN STATE UNIVERSITY TO PROVIDE LASER PEENING WITH THERMAL MICROSTRUCTURE ENGINEERING TECHNOLOGY ON U.S. DEPARTMENT OF ENERGY PROGRAM

31 August 2020

PARAMUS, NJ – August 31, 2020 – Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, today announced that it has been selected as a partner with Michigan State University (MSU) for a U.S. Department of Energy Advanced Research Projects Agency-Energy (ARPA-E) program.

The initiative will develop an advanced heat exchanger for supercritical CO2 generators – a more energy efficient, more compact, and lower cost electric turbine that offers the potential to significantly reduce greenhouse gas emissions. The project will employ MSU-developed HIPPED (Heat Exchanger Intensification Through Powder Processing and Enhanced Design), which features a plate-type heat exchanger that enables lower cost, powder-based advanced additive manufacturing.

“We are very excited to partner with MSU and ARPA-E on this critical new program,” said David Rivellini, Senior Vice President and General Manager, Curtiss-Wright Surface Technologies. “Curtiss-Wright’s recent breakthrough using laser peening technology coupled with newly developed thermal microstructure engineering (LP+TME) is enabling enhanced performance of nickel based alloys when subjected to high temperatures and corrosive environments as required for supercritical CO2 turbine systems.”

Surface treatments such as peening have not generally been used in high temperature applications due to the fading out of the benefit in elevated temperature environments. However, Curtiss-Wright’s LP+TME advanced technology creates improved fatigue and corrosion-fatigue performance in high temperature and corrosive environments, thereby offering the potential for higher temperature turbine operation which translates to improved efficiencies for jet engines and gas turbines. For the ARPA-E development, the Curtiss-Wright LP+TME process will be applied to the heat exchanger material exposed to the high temperature and corrosive environment of the supercritical CO2 system.

To learn more about the Curtiss-Wright’s laser peening technology, please visit: cwst.com

Press release: Download

About Curtiss-Wright Corporation:
Curtiss-Wright Corporation (NYSE: CW) is a global innovative company that delivers highly engineered, critical function products and services to the commercial, industrial, defense and energy markets. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing reliable solutions through trusted customer relationships. The company employs approximately 8,900 people worldwide. For more information, visit www.curtisswright.com.

 

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Curtiss-Wright’s Microseal® Supports NASA’s Mars 2020 Mission

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HOME / NEWS / CURTISS-WRIGHT’S MICROSEAL® SUPPORTS NASA’S MARS 2020 MISSION

CURTISS-WRIGHT’S MICROSEAL® SUPPORTS NASA’S MARS 2020 MISSION

27 July 2020

PARAMUS, NJ – July 27, 2020 – Curtiss-Wright’s Surface Technologies Division, a leading global provider of highly engineered surface treatments and analytical services, today announced that its proprietary Microseal® impingement lubricant coating process has been utilized on numerous components on NASA’s Mars 2020 Mission, many within the Sample Caching System on the Perseverance Rover. NASA’s Mars 2020 Mission is scheduled to launch on July 30, 2020 from Cape Canaveral Air Force Station, FL. This mission will seek signs of past microbial life and collect rock and soil samples for potential return to Earth.

“We are very proud that our Microseal® technology was selected by NASA to support this important mission,” said David Rivellini, Senior Vice President and General Manager, Curtiss-Wright Surface Technologies. “High performance in harsh conditions typical to space applications demands a reliable solution like Microseal®. The Microseal® process outperforms conventional lubricants as it remains stable under extreme conditions and is resilient to shock, radiation, vibration, acceleration and electrical discharge.”

To learn more about the Mars 2020 Mission, please visit:
https://mars.nasa.gov/mars2020/

To learn more about Microseal®, please visit:

MICROSEAL® IMPINGEMENT PROCESS

Press release: Download

About Curtiss-Wright Corporation
Curtiss-Wright Corporation (NYSE: CW) is a global innovative company that delivers highly engineered, critical function products and services to the commercial, industrial, defense and energy markets. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing reliable solutions through trusted customer relationships. The company employs approximately 8,900 people worldwide. For more information, visit www.curtisswright.com.

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Curtiss-Wright Surface Technologies Installs an In-house Vacuum Brazing, Sintering and Heat Treatment at Alfreton Derbyshire UK.

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HOME / NEWS / CURTISS-WRIGHT SURFACE TECHNOLOGIES INSTALLS AN IN-HOUSE VACUUM BRAZING, SINTERING AND HEAT TREATMENT AT ALFRETON DERBYSHIRE UK.

CURTISS-WRIGHT SURFACE TECHNOLOGIES INSTALLS AN IN-HOUSE VACUUM BRAZING, SINTERING AND HEAT TREATMENT AT ALFRETON DERBYSHIRE UK.

1 July 2020

Curtiss-Wright Surface Technologies is pleased to announce the addition of in-house Vacuum Brazing, Sintering and Heat treatment within our Component Coating and Repair facility based in Alfreton Derbyshire UK.

– The new Vacuum Furnace has a working area of 600mm x 450mmx 900mm and is fitted with a sealed cooling system meeting the latest environmental legislation.

– The vacuum brazing process uses a filler alloy which is pre-placed on the component in a location that as the furnace temperature is raised and the filler metal alloy melts, it flows into the assembly capillary joints and affects a strong bond.

– The Vacuum Furnace also brings Sintering and Heat Treatment capabilities to Curtiss-Wright Surface Technologies for components such as:

  • Stators
  • Nozzles
  • Honey Comb Seals
  • Rings
  • Blades

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Curtiss-Wright Acquires Para Tech Coating

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HOME / NEWS / CURTISS-WRIGHT ACQUIRES PARA TECH COATING

CURTISS-WRIGHT ACQUIRES PARA TECH COATING

8 February 2017

Leading applicator of parylene conformal coatings for protection of electronic and medical components

Paramus, N.J. – February 8, 2017– Curtiss-Wright’s Surface Technologies (CWST) division announced today that it has completed the acquisition of the net assets of Para Tech Coating, Inc. (Para Tech). With facilities in Aliso Viejo, CA; Middleton, CT and Neenah, WI, Para Tech is a leading provider of parylene conformal coating services for Aerospace & Defense electronic components as well as critical Medical devices.

“We are excited to combine Para Tech’s strong application engineering and equipment manufacturing capabilities with our existing network of parylene coating facilities,” said David Rivellini, Vice President and General Manager, Surface Technologies division. “We now have six locations worldwide providing parylene coating services and the infrastructure to facilitate further international expansion of this unique coating.”

Parylene is a polymeric coating applied by vapor deposition in a vacuum environment to ensure coating purity and integrity. It is well suited to ruggedizing high value printed circuit boards and electronic components due to its combination of high dielectric strength, moisture resistance, thin profile, and transparency. Medical applications also benefit from parylene’s intrinsic properties of lubricity, biocompatibility and resistance to solvents, radiation and bacteria.

About Curtiss-Wright Corporation

Curtiss-Wright Corporation is a global innovative company that delivers highly engineered, critical function products and services to the commercial, industrial, defense and energy markets. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing reliable solutions through trusted customer relationships. The company employs approximately 8,400 people worldwide. For more information, visit www.curtisswright.com.

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for the future opportunities associated with the acquisition, the success of transferring Para Tech’s technology throughout our existing world-wide network, and the success of the Company integrating Para Tech into its Commercial/Industrial segment are not considered historical facts and are considered forward-looking statements under the federal securities laws. Such forward-looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US government spending; an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to the Company’s current SEC filings under the Securities Exchange Act of 1934, as amended, for further information.

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Curtiss-Wright Acquires Bolt’s Metallizing, Inc

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HOME / NEWS / CURTISS-WRIGHT ACQUIRES BOLT’S METALLIZING, INC

CURTISS-WRIGHT ACQUIRES BOLT’S METALLIZING, INC

16 March 2015

Leading Supplier of Thermal Spray Coating Applications for Aerospace Customers

CHARLOTTE, N.C. – March 16, 2015 – Curtiss-Wright Corporation (NYSE: CW) today announced that it has acquired certain assets and liabilities of Bolt’s Metallizing, Inc.(Bolt’s).Bolt’s is a leading provider of thermal spray coatings, including high velocity oxygen fuel (HVOF) and plasma spray,for critical aerospace applications.

“The acquisition of Bolt’s is complementary to our existing engineered coatings offerings, adding high-technology services to our Surface Technologies business,” said David C. Adams, Chairman and CEO of Curtiss-Wright Corporation. “This is consistent with our stated acquisition strategy of targeting strategic bolt-on companies. Further, it reinforces Surface Technologies’ strategic objective to expand the breadth of their technology and customer bases. Bolt’s is located in a major US aerospace manufacturing area where we do not currently maintain a coatings presence, and this acquisition is expected to generate significant opportunities for technology transfer within our worldwide services network.”

Bolt’s specializes in the application of oxidation resistant and abradable coatings for turbine engines and HVOF wear coatings for landing gear components. In addition to thermal spray coatings, the business has onsite capability for welding and brazing, which enables turnkey repairs of turbine engine components. Bolt’s operates out of a 20k Square Feet facility in Phoenix, AZ, and is NADCAP andISO 9001 accredited.

About Curtiss-Wright Corporation

Curtiss-Wright Corporation (NYSE:CW) is a global innovative company that delivers highly engineered, critical function products and services to the commercial, industrial, defense and energy markets. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing reliable solutions through trusted customer relationships. The company employs approximately 9,000 people worldwide. For more information, visit www.curtisswright.com.

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for the future opportunities associated with the acquisition, the success of transferring the Bolt’s technology throughout our existing world-wide network, and the success of the Company integrating Bolt’s into its Commercial/Industrial segment are not considered historical facts and are considered forward-looking statements under the federal securities laws. Such forward-looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US government spending; an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to the Company’s current SEC filings under the Securities Exchange Act of 1934, as amended, for further information.

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Curtiss-Wright Acquires Component Coating and Repair Services Limited

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HOME / NEWS / CURTISS-WRIGHT ACQUIRES COMPONENT COATING AND REPAIR SERVICES LIMITED

CURTISS-WRIGHT ACQUIRES COMPONENT COATING AND REPAIR SERVICES LIMITED

13 January 2014

Leading UK Supplier of Specialized Coatings and Component Repairs for Turbine Engines

CHARLOTTE, N.C. – January 13, 2014 – Curtiss-Wright Corporation (NYSE: CW) today announced that it has completed the acquisition of 100% of the shares of Component Coating and Repair Services Limited (“CCRS”). CCRS is a leading UK provider of ultra-smooth and corrosion resistant coatings and precision airfoil repair services for aerospace and industrial turbine applications. The acquired business will operate within Curtiss-Wright’s Commercial/Industrial segment.

“The acquisition of CCRS adds new high-technology services to our Surface Technologies business that complement those of our existing engineered coatings offerings,” said David C. Adams, President and CEO of Curtiss-Wright Corporation. “This is consistent with our stated acquisition strategy to target strategic, bolt-on companies that we believe will enable us to achieve our objectives of margin expansion, strong cash generation and solid returns. We intend to leverage the synergies that exist between our coatings businesses, while also supporting Surface Technologies’ strategic objective to advance up the technological chain and expand the breadth of their technology and customer bases. Further, these technologies can be bundled with Curtiss-Wright’s existing thermal spray and shot peening technologies to create additional opportunities for technology insertion into our worldwide service network.”

Founded in 1995, CCRS currently operates two divisions within the United Kingdom. The Glasgow, Scotland facility specializes in the application of sacrificial aluminum coatings for aerospace turbine engines. A second facility based in Alfreton, England focuses on turnkey component repairs for Industrial Gas Turbines utilized in power generation and oil and gas applications. Both facilities have excellent reputations with their original equipment manufacturer (OEM) customer base for providing high quality service and fast turntimes.

CCRS has approximately 100 employees and is expected to generate sales of approximately £7 million (approximately $11 million) in 2014.

About Curtiss-Wright Corporation

Curtiss-Wright Corporation (NYSE: CW) is an innovative engineering company that provides highly engineered, critical function products, systems and services to the defense, energy and commercial/ industrial markets. The legacy company of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of design and manufacturing innovation and prides itself on long-standing customer relationships. The company employs approximately 10,000 people worldwide. For more information, visit www.curtisswright.com.

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for the future performance of CCRS, the future opportunities associated with the acquisition, and the success of the Company integrating CCRS into its Commercial/Industrial segment, are not considered historical facts and are considered forward-looking statements under the federal securities laws. Such forward-looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US government spending; an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to the Company’s current SEC filings under the Securities Exchange Act of 1934, as amended, for further information.

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Curtiss-Wright Awarded Laser Peening Contract from Rolls-Royce

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HOME / NEWS / CURTISS-WRIGHT AWARDED LASER PEENING CONTRACT FROM ROLLS-ROYCE

CURTISS-WRIGHT AWARDED LASER PEENING CONTRACT FROM ROLLS-ROYCE

16 July 2013

To Provide Services on Trent Turbine Engine Fan Blades

PARSIPPANY, N.J. – July 16, 2013 — Curtiss-Wright Corporation (NYSE:CW) announced today that its Surface Technologies segment has been awarded a contract from Rolls-Royce to establish and operate a laser peening production cell inside of Rolls-Royce’s wide chord fan blade (WCFB) manufacturing facility in Singapore. The laser peening cell is currently fully operational and processing fan blades for certain Trent aero engines.

Curtiss-Wright’s laser peening technology is based on a Neodymium glass laser technology, which was originally developed in conjunction with Lawrence Livermore National Laboratory. It has the ability to impart deep compressive stresses on the surface of metal parts, which can then be used to minimize the maintenance/inspection interval of these critical components. Curtiss-Wright Surface Technologies operates laser peening facilities in Livermore, CA; Earby, UK; Frederickson, WA and Palmdale, CA and also has mobile laser peening systems with the capability to go on-site anywhere in the world.

“We are very pleased to be providing Rolls-Royce with our state-of-the-art laser peening technology for their most advanced commercial engine designs,” said Martin R. Benante, Chairman and CEO of Curtiss-Wright Corporation. “This award is a significant milestone in continuing to expand our proprietary laser peening technology globally. A number of industry leaders, such as Boeing and Siemens, have also recognized the benefits of this unique and highly technical offering.”

The Trent aero engine family provides world class performance and reliability to a wide array of the most advanced commercial airplanes today, including the Boeing 787, Airbus A350 and Airbus A380.

About Curtiss-Wright Corporation

Curtiss-Wright Corporation (NYSE:CW) is an innovative engineering company that provides highly engineered, critical function products, systems and services in the areas of flow control, motion control and surface treatment technologies to the defense, energy and commercial/ industrial markets. The legacy company of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of design and manufacturing innovation and prides itself on long-standing customer relationships. The company employs approximately 10,000 people worldwide. For more information, visit www.curtisswright.com.

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for the future performance of the BASF Surface Technologies business unit, the future opportunities associated with the acquisition, and the success of the Company integrating BASF Surface Technologies into its Metal Treatment segment, are not considered historical facts and are considered forward-looking statements under the federal securities laws. Such forward-looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US government spending; an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to the Company’s current SEC filings under the Securities Exchange Act of 1934, as amended, for further information.

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Curtiss-Wright Acquires F.W. Gartner Thermal Spraying, Ltd.

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HOME / NEWS / CURTISS-WRIGHT ACQUIRES F.W. GARTNER THERMAL SPRAYING, LTD.

CURTISS-WRIGHT ACQUIRES F.W. GARTNER THERMAL SPRAYING, LTD.

3 January 2013

A Leading Supplier of Advanced Wear Coatings for Premium Industrial Markets

PARSIPPANY, N.J. – January 3, 2013 – Curtiss-Wright Corporation announced today that it has acquired the assets of F.W. Gartner Thermal Spraying, Ltd., (“Gartner”) of Houston, TX; a leading provider of wear and abrasion resistant coatings for energy and power generation applications. Established in 1923, Gartner has been a pioneer in the application of thermal spray protective coatings that extend the life and improve the performance of severe service industrial components. Gartner also provides laser cladding, PTA weld repair and machining/finishing services to complement its thermal spray coating capabilities.

“The acquisition of FW Gartner strengthens our position within the highly engineered thermal spray coatings market. Its location in the center of the United States energy market and expertise in the application of wear resistant coatings complements our existing thermal barrier spray coating business which serves the aerospace and power generation OEM markets”, said Martin R. Benante, Chairman and CEO of Curtiss-Wright Corporation. “We intend to leverage the significant cross synergies that exist between Gartner and our existing thermal spray facilities, and also capitalize on worldwide growth opportunities for Gartner’s technologies.”

Thermal spray coatings are utilized to protect and enhance a broad variety of critical components used in demanding industries such as aerospace, energy exploration, petrochemical processing, mining and power generation. Gartner applies its thermal spray coatings using a variety of techniques, including high velocity oxygen fuel (HVOF), plasma spray and flame spray, to tailor the coatings for specific end use properties.

Gartner has approximately 115 employees at two ISO 9001 accredited facilities in the Houston, TX area and had sales of approximately $24 million in 2012. Going forward, the facilities will continue to do business as F.W. Gartner Thermal Spraying and operate within the Curtiss-Wright Surface Technologies business segment.

About Curtiss-Wright Surface Technologies Segment

The Curtiss-Wright Surface Technologies (“CWST”) business segment provides precision shot peening, laser peening, engineered coating and analytical testing services to the aerospace, power generation, transportation and other demanding general industrial markets through a global network of 70 locations. For more information, visit www.gukcwst.wpengine.com.

About Curtiss-Wright Corporation

Curtiss-Wright Corporation is an innovative engineering company that provides highly engineered, critical function products, systems and services in the areas of flow control, motion control and surface treatment technologies to the defense, energy and commercial/industrial markets. The legacy company of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of design and manufacturing innovation along with long-standing customer relationships. The company employs approximately 9,700 people worldwide. For more information, visit www.curtisswright.com.

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for the future performance of F.W. Gartner Thermal Spraying. Ltd, the future opportunities associated with this acquisition, and the success of the Company integrating F.W. Gartner Thermal Spraying. Ltd. into its Surface Technologies segment, are not considered historical facts and are considered forward-looking statements under the federal securities laws. Such forward-looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US government spending; an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to the Company’s current SEC filings under the Securities Exchange Act of 1934, as amended, for further information.

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Curtiss-Wright Acquires IMR Test Labs

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HOME / NEWS / CURTISS-WRIGHT ACQUIRES IMR TEST LABS

CURTISS-WRIGHT ACQUIRES IMR TEST LABS

25 July 2011

PARSIPPANY, N.J., July 25, 2011 — Curtiss-Wright Corporation (NYSE:CW), the parent firm of Metal Improvement Company, announced today that it has acquired the assets of IMR Test Labs (IMR), a leading provider of mechanical and metallurgical testing services for the aerospace, power generation and medical markets. IMR had sales of approximately $14 million in 2010. This business will become part of Curtiss-Wright’s Metal Treatment segment.

“This acquisition is consistent with our strategy of diversifying Curtiss-Wright’s portfolio of metal treatment services,” said Martin R. Benante, Chairman and CEO of Curtiss-Wright Corporation. “The addition of IMR enables us to enter a highly technical service niche in the manufacturing value chain for components used in premium industrial markets. Material testing is utilized in the on-going quality assurance of raw materials for production manufacturing as well as for the validation of new component designs.

“IMR will become the cornerstone of a new engineered service business unit for Curtiss-Wright that is synergistic with our Metal Treatment segment’s current capabilities,” Mr. Benante added.

IMR’s complete range of testing capabilities includes fatigue testing, metallurgical analysis, chemical analysis, mechanical testing, failure analysis and training. Its facilities are A2LA and Nadcap accredited. IMR is also certified by major original equipment manufacturers across the U.S. With a staff of 115 that includes 29 engineers and chemists, IMR has expertise in non-metallic materials, including composites and ceramics, which will facilitate Metal Treatment’s expansion into other high technology markets and services.

IMR is headquartered in Ithaca, NY and operates state-of-the-art laboratory facilities in NY, Louisville, KY, and Portland, OR. The company also is in the process of opening a facility in Singapore to support the growing Asian aerospace industry. For more information on IMR’s capabilities, visit www.imrtest.com.

About Curtiss-Wright Corporations
Curtiss-Wright Corporation is an innovative engineering company that provides highly engineered, critical function products, systems and services in the areas of flow control, motion control and metal treatment to the defense, energy and commercial/industrial markets. The legacy company of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of design and manufacturing innovation along with long-standing customer relationships. The company employs approximately 7,700 people worldwide. For more information, visit www.curtisswright.com.

About Curtiss-Wright Metal Treatment Segment
Metal Improvement Company, headquartered in Paramus, NJ, is the Metal Treatment business segment of Curtiss-Wright Corporation. This business segment provides precision shot peening, laser peening and protective coating services to the aerospace, automotive, power generation and general industrial markets through a global network of locations. For more information, visit www.metalimprovement.com.

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for the future performance of the IMR Test Labs, the future opportunities associated with the acquisition, and the success of the Company integrating IMR Test Labs into its Metal Treatment segment, are not considered historical facts and are considered forward-looking statements under the federal securities laws. Such forward-looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US government spending; an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to Curtiss-Wright Corporation’s current SEC

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Curtiss-Wright Acquires BASF’s Surface Technologies Business

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HOME / NEWS / CURTISS-WRIGHT ACQUIRES BASF’S SURFACE TECHNOLOGIES BUSINESS

CURTISS-WRIGHT ACQUIRES BASF’S SURFACE TECHNOLOGIES BUSINESS

8 April 2011

Parsippany, NJ, April 8 – Curtiss-Wright Corporation, the parent firm of Metal Improvement Company, today announced that it has acquired the assets of BASF’s Surface Technologies business from BASF Corporation. The Surface Technologies business is a leading supplier of metallic and ceramic thermal spray coatings primarily for flight and industrial turbine applications. Going forward, the facilities will be branded and do business as Curtiss-Wright Surface Technologies (“CWST”.)

Thermal spray coatings are utilized to protect and enhance a wide variety of critical components used in the aerospace, automotive, diesel, power generation, medical and general industrial markets. These coatings provide thermal barrier protection, abrasion and erosion resistance, high temperature oxidation/corrosion resistance and environmentally friendly replacement for hard chrome plating. The three CWST facilities apply advanced GPX and APX thermal spray coatings, using high velocity oxygen fuel (HVOF), plasma spray and flame spray coating technologies, to tailor the coatings for specific end use properties.

The CWST business has approximately 150 employees at its three operating facilities located in East Windsor, CT, Wilmington, MA and Duncan, SC. All three facilities are ISO 9001 certified and Nadcap accredited for thermal spray coating of aerospace components.

Metal Improvement Company provides precision metal finishing services, including shot peening, laser peening, coating services and heat treating, through a network of over 68 facilities in North America, Europe and Asia. Metal Improvement Company is a wholly-owned subsidiary of the Curtiss-Wright Corporation.

Curtiss-Wright Corporation (NYSE: CW) is a diversified company headquartered in Parsippany, NJ. The company designs and manufactures products for motion control and flow control applications, and provides a variety of specialized metal treatment services. The firm employs approximately 7,600 people worldwide. For more information, visit www.curtisswright.com.

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for the future performance of the BASF Surface Technologies business unit, the future opportunities associated with the acquisition, and the success of the Company integrating BASF Surface Technologies into its Metal Treatment segment, are not considered historical facts and are considered forward-looking statements under the federal securities laws. Such forward-looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US government spending; an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to the Company’s current SEC filings under the Securities Exchange Act of 1934, as amended, for further information.

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Metal Improvement Company opens Parylene Coating facility in Galway, Ireland

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HOME / NEWS / METAL IMPROVEMENT COMPANY OPENS PARYLENE COATING FACILITY IN GALWAY, IRELAND

METAL IMPROVEMENT COMPANY OPENS PARYLENE COATING FACILITY IN GALWAY, IRELAND

24 March 2011

Metal Improvement Company (MIC) today held a grand opening ceremony for its newest coating facility in Galway, Ireland. The new facility will support Ireland’s medical device manufacturing infrastructure with specialized Parylene Coating services from its location in the Parkmore West Business Campus.

Officiating at the opening ceremony was John Perry TD, the Minister of State at Ireland’s Department of Jobs, Enterprise & Innovation. Minister Perry said “I am delighted to open this facility for Metal Improvement Company, which is expanding its international business from Ireland to service customer demand in the European region.”

Parylene is used to provide lubricity and biocompatibility for medical devices, and it also provides moisture barrier and electrical insulation protection for printed circuit boards. MIC’s parylene coatings meet all current Military and IPC specifications for conformal coatings, including MIL-I-46058C, as well as having USP Class VI approvals for medical applications.

Persons interested in learning more about the benefits of Parylene coatings, and the specific capabilities of this facility should email [email protected] or call the facility at +353 91-780-300.

Metal Improvement Company provides specialty metal finishing services, including shot peening, laser peening, coating services and heat treating, through its network of over 68 facilities in North America, Europe and Asia. Metal Improvement Company is a wholly-owned subsidiary of the Curtiss-Wright Corporation.

Curtiss-Wright Corporation (NYSE: CW) is a diversified company headquartered in Parsippany, NJ. The company designs and manufactures products for motion control and flow control applications, and provides a variety of specialized metal treatment services. The firm employs approximately 7,600 people worldwide. For more information, visit www.curtisswright.com.

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Metal Improvement Company Adds Parylene Coating to New Brighton, MN Facility

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HOME / NEWS / METAL IMPROVEMENT COMPANY ADDS PARYLENE COATING TO NEW BRIGHTON, MN FACILITY

METAL IMPROVEMENT COMPANY ADDS PARYLENE COATING TO NEW BRIGHTON, MN FACILITY

7 February 2011

Metal Improvement Company (MIC) has added parylene coating capabilities to its E/M Coating Services division at the New Brighton, MN facility. Parylene is used to provide lubricity and biocompatibility for medical devices, and it also provides moisture barrier and electrical insulation protection for printed circuit boards. MIC’s Parylene coatings meet all current Military and IPC specifications for conformal coatings, including MIL-I-46058C, as well as having USP Class VI approvals for medical applications.

MIC’s facility in New Brighton, MN provides shot peening and specialty coating services for customers in the greater Minneapolis area. For more information on their complete capabilities, contact the facility at 651-780-3202.

Metal Improvement Company provides specialty metal finishing services, including shot peening, laser peening, coating services and heat treating, through its network of over 65 facilities in North America, Europe and Asia. Metal Improvement Company is a wholly-owned subsidiary of the Curtiss-Wright Corporation.

Curtiss-Wright Corporation (NYSE: CW) is a diversified company headquartered in Parsippany, NJ. The company designs and manufactures products for motion control and flow control applications, and provides a variety of specialized metal treatment services. The firm employs approximately 7,600 people worldwide. For more information, visit www.curtisswright.com

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Metal Improvement Company adds Parylene Coating to New Britain, CT Facility

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HOME / NEWS / METAL IMPROVEMENT COMPANY ADDS PARYLENE COATING TO NEW BRITAIN, CT FACILITY

METAL IMPROVEMENT COMPANY ADDS PARYLENE COATING TO NEW BRITAIN, CT FACILITY

25 November 2009

Metal Improvement Company adds Parylene Coating to New Britain, CT Facility

Metal Improvement Company (MIC) has added parylene coating capabilities at its E/M Coating Services facility in New Britain, CT. Parylene is used as a moisture barrier and electrical insulation coating for printed circuit boards and as a biocompatible coating in medical device coatings. MIC’s parylene coatings meet all current Military and IPC specifications for conformal coatings, as well as having USP Class VI approvals for the Medical applications.

For more information, contact E/M Coating Services at 860-224-9148

Metal Improvement Company, a wholly-owned subsidiary of the Curtiss-Wright Corporation (NYSE: CW), provides coating solutions for the most demanding requirements. The company operates 68 facilities located in North America, Europe and the Far East. For more information visit: www.metalimprovement.com.

Curtiss-Wright Corporation, headquartered in Parsippany, NJ, is a diversified company that designs, manufactures, and overhauls products for motion and flow control applications in addition to providing metal treatment services. The company employs 7,600 people. For more information visit: www.curtisswright.com.

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Metal Improvement Company installs new shot peening capability at Toronto Facility

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HOME / NEWS / METAL IMPROVEMENT COMPANY INSTALLS NEW SHOT PEENING CAPABILITY AT TORONTO FACILITY

METAL IMPROVEMENT COMPANY INSTALLS NEW SHOT PEENING CAPABILITY AT TORONTO FACILITY

5 August 2009

Brampton, Ontario, July 27, 2009, – Metal Improvement Company (MIC) has expanded the metal finishing capabilities at its MICAN facility in Brampton, Ontario, with the installation of computer monitored shot peening equipment. This equipment has the capability to process aircraft engine shafts to the demanding AMS-2432 and P11TF8 specifications.

The MICAN facility is Nadcap accredited, and AS 9100 and ISO 9001:2000 registered. It is approved by many aerospace and automotive OEMs for controlled shot peening (CSP) to AMS 2430, AMS 2430L and customer specifications. It holds multiple approvals and processes components from OEMs including AECL, Bell, Boeing, Bombardier, Embraer, General Dynamics, General Electric, General Motors, Goodrich, Heroux Devtek, L3, Com, Magna, Magellan, Messier-Dowty, Rolls-Royce, Spar, Pratt & Whitney Canada and Siemens.

The MICAN facility has been located in suburban Toronto since 1969, with 85,000 square feet to provide metal treatment services for critical components operating in aerospace, automotive, chemical processing, mining, power generation, and specialty industrial applications. Components with diverse materials, shapes and sizes, up to 82 feet long, are processed under rigidly controlled conditions.

For more information, contact Metal Improvement at Tel: (905) 791-8002

Metal Improvement Company, a wholly-owned subsidiary of the Curtiss-Wright Corporation (NYSE: CW), provides solution through precision metal finishing services that include shot and laser peening, peen forming, heat treating and engineered coatings. The company operates 68 facilities located in North America, Europe and China. For more information visit www.metalimprovement.com

Curtiss-Wright Corporation, headquartered in Parsippany, NJ, is a diversified company that designs, manufactures and overhauls products for motion control and flow control applications in addition to providing metal treatment services. The firm employs approximately 7,600 people. For more information visit www.curtisswright.com

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Metal Improvement Company Opens Laser Peening Facility in Europe

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HOME / NEWS / METAL IMPROVEMENT COMPANY OPENS LASER PEENING FACILITY IN EUROPE

METAL IMPROVEMENT COMPANY OPENS LASER PEENING FACILITY IN EUROPE

18 March 2009

Paramus, NJ, March 18 — Metal Improvement Company (MIC) has opened its first European-based laser peening production facility in Earby, Lancashire, U.K.

The state-of-the-art production facility is only the second-of-its-kind in the world to offer this unique technology for use on turbine engine components for commercial aircraft. It is approved to ISO 9001:2000 with two laser peening systems in operation that are processing turbofan engine parts on a regular basis.

“We chose the Earby location for this facility because of its proximity to key accounts as well as premium science and testing establishments,” said Peter O’Hara, Vice President of European Sales and Marketing for MIC. The facility currently employs 30 people and was established to support the emerging European market for laser peening.

MIC’s initial laser peening production facility commenced operations in May of 2002 in Livermore, CA, USA, to capitalize on the laser expertise of Lawrence Livermore National Laboratory (LLNL). The MIC Livermore facility was the first in the world to utilize laser peening technology in production on turbine engine components of commercial aircraft. The facility is a Federal Aviation Administration approved repair station (MPKR633X) for specialized laser peening services and also a Joint Aviation Authorities approved JAR-145 repair station (JAA.5573).

Both MIC facilities are using a LLNL designed Neodymium:glass slab laser to generate a one million psi pressure pulse on the surface of critical turbine engine metal components. The laser can fire five pulses per second. The repeated pressure pulses create shockwaves that travel through the metal and impart a layer of beneficial compressive stress to the surface that is four times deeper than that attainable from conventional peening treatments. This compressive stress increases the component’s resistance to failure mechanisms such as fatigue, fretting fatigue and stress corrosion, which translates to increased component life and reduced maintenance costs.

Laser peening enables component designers and manufacturers to more easily strengthen metal components where they are structurally vulnerable without having to add metal and the associated weight to the entire structure. The result is additional strength without additional weight, which is particularly important in aerospace and automotive components as well as medical implant applications. Other projected future uses for laser peening include components used in nuclear power generation, petrochemical and oil and gas industry applications.

Metal Improvement Company, a wholly-owned subsidiary of the Curtiss-Wright Corporation (NYSE: CW, CW.B), provides precision metal treatment services that include shot and laser peening, peen forming, heat treating and coating services. The company operates over 50 facilities in North America and Europe.

Curtiss-Wright Corporation, headquartered in Roseland, NJ, is a diversified company that designs, manufactures and overhauls products for motion control and flow control applications in addition to providing metal treatment services. For more information about Curtiss-Wright visit www.curtisswright.com

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Metal Improvement Company Opens New Shot Peening Facility in Spain

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HOME / NEWS / METAL IMPROVEMENT COMPANY OPENS NEW SHOT PEENING FACILITY IN SPAIN

METAL IMPROVEMENT COMPANY OPENS NEW SHOT PEENING FACILITY IN SPAIN

18 February 2008

Seville, Spain, Feb. 18 — Metal Improvement Company (MIC) recently expanded its worldwide network of shot peening facilities to 38 with the opening of a new 12,920-square-foot plant in Seville, Spain. The new facility enables MIC to provide faster turntimes and better service for customers throughout southern Spain, which is the heart of the country’s aircraft industry, as well as customers from Portugal.

The Seville facility has ISO 9000 approvals and will specialize in processing a variety of large to mid-size aluminum aircraft components including spars, ribs and fixtures. In addition, the facility will provide peen forming services for shaping of aircraft wing structural components and dimensional restoration of components that have become distorted due to machining or other metal working processes.

MIC’s new 12,920-square-foot facility in Seville, Spain provides shot peening and peen forming services. The new MIC Seville facility features a custom spar processing machine designed and constructed by MIC’s UK Engineering Division.

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Boeing Awards MIC Laser Peening Contract to Form 747-8 Wing Sections

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HOME / NEWS / BOEING AWARDS MIC LASER PEENING CONTRACT TO FORM 747-8 WING SECTIONS

BOEING AWARDS MIC LASER PEENING CONTRACT TO FORM 747-8 WING SECTIONS

14 January 2008

Livermore, CA, Jan. 14 — Metal Improvement Company (MIC), a wholly-owned subsidiary of Curtiss-Wright Corporation, has been awarded a contract from The Boeing Company to establish a laser peen forming production cell inside of Boeing’s Frederickson, WA facility. The laser peening cell is planned to be in production during the second quarter of 2008 and would initially be utilized for shaping the complex curvatures of some of the wing sections of the new Boeing 747-8.

Metal Improvement Company’s laser peening technology is based on a Neodymium glass laser technology, which was originally developed at the Lawrence Livermore National Laboratory. It has the ability to impart deep compressive stresses on the surface of metal parts, which can then be used to precisely form metal panels into their desired shape. MIC operates laser peening facilities in Livermore , CA and Earby , UK , and also has mobile laser peening systems with the capability to go on-site anywhere in the world.

“We are very pleased to be providing Boeing with our state-of-the-art laser peen technology for their most advanced aircraft design,” said Martin R. Benante, Chairman and CEO of Curtiss-Wright. “This award is a significant milestone in bringing our proprietary laser peening technology to the market. A number of industry leaders, such as Rolls Royce and Siemens have also recognized the benefits of this process and we see a strong outlook for additional production orders.”

The Boeing 747-8 Intercontinental and 747-8 Freighter are new high- capacity aircraft based on Boeing’s proven 747 family. The 747-8 offers the advantage of improved aerodynamics and reduced operating costs over the current 747-400.

Metal Improvement Company provides precision metal finishing services, including shot peening, shot peen forming, laser peening, heat treating, specialty coatings, reed valve manufacturing and wet finishing. Its customer base includes the commercial aerospace, automotive, power generation and processing industries. The Company operates 61 metal treatment facilities in North America and Europe .

About Curtiss-Wright

Curtiss-Wright Corporation is a diversified company headquartered in Roseland , N.J. The company designs, manufactures and overhauls products for motion control and flow control applications, and provides a variety of metal treatment services. The firm employs approximately 7,300 people worldwide. More information on Curtiss-Wright can be found at www.curtisswright.com

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Siemens Incorporates Laser Peening Technology on Steam Turbines

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HOME / NEWS / SIEMENS INCORPORATES LASER PEENING TECHNOLOGY ON STEAM TURBINES

SIEMENS INCORPORATES LASER PEENING TECHNOLOGY ON STEAM TURBINES

18 October 2007

Livermore, CA, Oct. 18 — Metal Improvement Company (MIC) announced today that Siemens Power Generation has begun utilizing MIC’s laser peening technology to improve the fatigue strength of titanium last row blades on certain of their advanced steam turbines. The last row blades extract energy from the steam to drive electrical generators. Although the laser peening technology has been utilized for several years to strengthen critical titanium components in commercial and military turbine engines, this application represents its first production use in power generation steam turbines.

The MIC laser peening technology is based on a Neodymium glass laser technology, which was originally developed at the Lawrence Livermore National Laboratory. The laser beam, with a peak power output of 1,000 Megawatts, is pulsed and directed at the surface of metal parts to be treated. Pressure waves of one million pounds per square inch are generated at the surface and compress the metal to leave behind a protective residual compressive stress layer beneath the surface. This compressive stress acts to increase the component’s resistance to failure mechanisms such as fatigue, fretting fatigue and stress corrosion cracking, which in turn translates into increased component life and reduced maintenance costs.

MIC operates laser peening production facilities in Livermore, CA to service the North American market and Earby, UK to service the European market. Laser peening continues to gain momentum as a premier metal surface treatment for highly stressed components made of steel, titanium, aluminium and other metals where extended life or improved reliability is important. MIC also operates mobile laser peening systems with the capability to be transferred and set up anywhere in the world to bring the benefits of laser peening technology to new applications.

The Power Generation Group (PG) of Siemens AG is one of the premier companies in the international power generation sector. In fiscal 2006 Siemens PG had sales of more than EUR 10 billion and a work force of approximately 36,400 worldwide. For more information about the Power Generation Group of Siemens AG visit www.powergeneration.siemens.com

Metal Improvement Company, a wholly-owned subsidiary of the Curtiss-Wright Corporation, provides precision metal treatment services that include shot and laser peening, peen forming, heat treating and coating services. The company operates 61 metal treatment facilities in North America and Europe.

Curtiss-Wright Corporation (NYSE: CW), headquartered in Roseland, NJ, is a diversified company that designs, manufactures and overhauls products for motion control and flow control applications in addition to providing metal treatment services. For more information about Curtiss-Wright visit www.curtisswright.com

This press release contains forward-looking statements made pursuant to the Safe Harbor provisions of the Private Securities Litigation Reform Act of 1995 that are based on management’s beliefs and assumptions for a certain commercial application of its laser peening technology and a service contract with an existing customer. Such statements, including statements relating to Curtiss-Wright Corporation’s expectations for future performance and opportunities, are not considered historical facts and are considered forward- looking statements under the federal securities laws. Such forward- looking statements are subject to certain risks and uncertainties that could cause actual results to differ materially from those expressed or implied. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of the date hereof. Such risks and uncertainties include, but are not limited to: a reduction in anticipated orders; an economic downturn; changes in competitive marketplace and/or customer requirements; a change in US and Chinese government spending; a change in political relations between the Chinese and US governments, an inability to perform customer contracts at anticipated cost levels; and other factors that generally affect the business of aerospace, defense contracting, marine, electronics and industrial companies. Please refer to the Company’s current SEC filings under the Securities and Exchange Act of 1934, as amended, for further information.

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Metal Improvement Company Introduces Peenscansm Pen

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HOME / NEWS / METAL IMPROVEMENT COMPANY INTRODUCES PEENSCANSM PEN

METAL IMPROVEMENT COMPANY INTRODUCES PEENSCANSM PEN

11 January 2006

Paramus, NJ, Jan. 11 – Metal Improvement Company has introduced the Peenscan Pen, a new product for the shot peening industry that greatly facilitates quality control of the shot peening process.

The Peenscan Pen provides a convenient method for applying a thin coating of fluorescent tracer fluid to very specific areas of a part without the need for masking. The tracer fluid can be utilized during initial engineering set-up of a part for shot peening as well as for monitoring critical areas (gear teeth, etc.) during production shot peening. Use of fluorescent tracer fluid is a practical way to measure shot peening coverage in terms of amount and uniformity by monitoring the degree of removal of a fluorescent dye after shot peening.

The Peenscan Pen is available with two different fluorescent fluids. Selection of the appropriate Peenscan Pen is dependent on the hardness of the metal and the intensity of the shot peening process. Many aerospace, automotive and industrial manufacturers have approved the Peenscan process.

The Peenscan Pen is available for purchase directly from Metal Improvement Company, as well as from Electronics, Incorporated in North America and Nako-M-Link in Singapore.

Metal Improvement Company provides precision metal finishing services, including shot peening, laser peening, coating services and heat treating, through a network of over 50 facilities in North America and Europe. Metal Improvement Company is a wholly-owned subsidiary of the Curtiss-Wright Corporation (NYSE: CW).

Curtiss-Wright Corporation, headquartered in Roseland, NJ, is a diversified company that designs, manufactures and overhauls products for motion control and flow control applications in addition to providing metal treatment services. For more information about Curtiss-Wright visit www.curtisswright.com.

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Metal Improvement Company Publishes Ninth Edition of Shot Peening Applications Guide

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HOME / NEWS / METAL IMPROVEMENT COMPANY PUBLISHES NINTH EDITION OF SHOT PEENING APPLICATIONS GUIDE

METAL IMPROVEMENT COMPANY PUBLISHES NINTH EDITION OF SHOT PEENING APPLICATIONS GUIDE

21 November 2005

Paramus, NJ, Nov. 21 – Metal Improvement Company (MIC) has published the ninth edition of its Shot Peening Applications Guide, also known as the “MIC Green Book”.

MIC’s Shot Peening Applications Guide is a comprehensive technical resource on shot peening and covers the process’s theory, response to metals and effectiveness in various applications. The 64-page publication is available in four-color hard copy format, or you can download the entire manual or select chapters of interest in PDF format through the company’s web site (www.metalimprovement.com).

Metal Improvement Company provides precision metal finishing services, including shot peening, laser peening, coating services and heat treating, through a network of over 50 facilities in North America and Europe. Metal Improvement Company is a wholly-owned subsidiary of the Curtiss-Wright Corporation (NYSE: CW).

Curtiss-Wright Corporation, headquartered in Roseland, NJ, is a diversified company that designs, manufactures and overhauls products for motion control and flow control applications in addition to providing metal treatment services. For more information about Curtiss-Wright visit www.curtisswright.com.

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Curtiss-Wright Acquires E/M Coatings Business In United Kingdom

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HOME / NEWS / CURTISS-WRIGHT ACQUIRES E/M COATINGS BUSINESS IN UNITED KINGDOM

CURTISS-WRIGHT ACQUIRES E/M COATINGS BUSINESS IN UNITED KINGDOM

3 March 2004

Roseland, NJ, March 3 – Curtiss-Wright Corporation has announced the acquisition of the assets of a coatings business located in Evesham, United Kingdom from Morgan Advanced Ceramics, Ltd.

The E/M Coating Services facility in Evesham manufactures and applies a broad range of solid film lubricant (SFL) coatings that provide lubrication, corrosion resistance and enhanced operating performance for metal components. The coatings, offered under the trade names of Everlube®, Ever-Slik&reg, Lube-Lok&reg, Lubri-Bond&reg, Flurene&reg and Perma-Slik&reg, are applied to steel, titanium and aluminum substrates. The 32,000-square-foot facility applies coatings for the automotive, oil exploration, aerospace and specialty industrial markets. The facility employs 53 people and is ISO9001 certified.

“The acquisition of this high technology coatings facility is an integral step in our strategic plan to grow and diversify our metal treatment services business worldwide,” said Martin R. Benante, Chairman and CEO of Curtiss-Wright. “This state-of-the-art facility in Evesham will work closely with our five other facilities in the U.K. to provide our combined customer base with a full range of metal surface treatment technologies for protection of critical metal components against fatigue, fretting, corrosion and wear.”

The Evesham facility will operate as part of the E/M Coating Services business unit of Metal Improvement Company, a wholly-owned subsidiary of Curtiss-Wright.

The acquisition expands the network of six North American based E/M Coating Services application facilities acquired by Curtiss-Wright in 2003. E/M Coating Services is the largest applicator of SFL coatings in North America. SFL coatings are effective in a broad range of applications whenever conventional wet lubricants provide insufficient protection due to high temperatures, extreme loads, corrosion, wear, chemical corrosion and other adverse operating conditions.

Metal Improvement Company provides precision metal finishing services that include shot and laser peening, peen forming, heat treating and coating services. The company operates over 50 facilities in North America and Europe. For more information about the Metal Improvement Company visit www.metalimprovement.com

Curtiss-Wright Corporation (NYSE: CW, CW.B), headquartered in Roseland, NJ, is a diversified company that designs, manufactures and overhauls products for motion control and flow control applications in addition to providing metal treatment services. For more information about Curtiss-Wright visit www.curtisswright.com.

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Metal Improvement Company Laser Peening Facility Awarded JAR-145 Approval

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HOME / NEWS / METAL IMPROVEMENT COMPANY LASER PEENING FACILITY AWARDED JAR-145 APPROVAL

METAL IMPROVEMENT COMPANY LASER PEENING FACILITY AWARDED JAR-145 APPROVAL

26 February 2004

Livermore, CA, Feb. 26 – The Joint Aviation Authorities (JAA) have awarded JAR-145 repair station approval to the Metal Improvement Company’s laser peening facility in Livermore, CA (repair station number JAA.5573).

This facility was the first in the world to utilize laser peening technology in production on commercial turbine engine components. The Livermore facility is also an approved Federal Aviation Administration repair station (MPKR633X) for specialized laser peening services.

In the laser peening process a laser beam generates a one million psi pressure pulse on the surface of a metal part. The pressure pulse creates a shockwave that travels through the metal and imparts a layer of beneficial compressive stress to the surface. This compressive stress increases the component’s resistance to failure mechanisms such as fatigue, fretting fatigue and stress corrosion, which translates to increased component life.

Metal Improvement Company, a wholly-owned subsidiary of the Curtiss-Wright Corporation (NYSE: CW), provides precision metal finishing services that include laser and shot peening, peen forming, heat treating and coating services. The company operates over 50 facilities in North America and Europe.

Curtiss-Wright Corporation, headquartered in Roseland, NJ, is a diversified company that designs, manufactures and overhauls products for motion control and flow control applications in addition to providing metal treatment services. For more information about Curtiss-Wright visit www.curtisswright.com.

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United Space Alliance Presents Certificate of Appreciation to E/M Coating Services

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HOME / NEWS / UNITED SPACE ALLIANCE PRESENTS CERTIFICATE OF APPRECIATION TO E/M COATING SERVICES

UNITED SPACE ALLIANCE PRESENTS CERTIFICATE OF APPRECIATION TO E/M COATING SERVICES

2 November 2003

The United Space Alliance has presented E/M Coating Services a Certificate of Appreciation in recognition of the company’s work in support of the space shuttle program.

Lloyd Gregg, Solid Rocket Booster (SRB) Program Management Director for the United Space Alliance, presented the certificate to the employees of E/M Coating Services’ Hartford facility in recognition of their high quality work and responsiveness. William Manginelli, Manager of the Hartford facility, accepted the certificate, which contains a small flag that flew on the last complete mission of the Space Shuttle Columbia (Mission STS-109), on behalf of the employees. Also representing the United Space Alliance was Carol Farran, Procurement Director, Doug Whalin, SRB Safety, Quality and Mission Assurance Director and Gary Henderson, Assistant to the SRB Associate Program Manager.

The E/M Coating Services facility in Hartford applied Microseal® solid film lubricant coating to door seals used on the space shuttle. Microseal has proven effective in operating in the extreme conditions and temperatures of space. The facility also applied Lube-Lok® solid film lubricant to spherical washers used for attaching the solid rocket boosters to the mobile launch pad.

The United Space Alliance, headquartered in Houston, TX, offers products and services in space flight training, space hardware processing, launch and return operations and on-orbit operations. It is jointly owned by The Boeing Company and Lockheed Martin Corporation and serves as NASA’s prime contractor for the space shuttle. Additional information about the United Space Alliance can be found by visiting www.unitedspacealliance.com

E/M Coating Services, a division of the Metal Improvement Company, operates six U.S.-based facilities and is the largest applicator of solid film lubricant coatings in North America.

Metal Improvement Company, a wholly-owned subsidiary of the Curtiss-Wright Corporation (NYSE: CW), provides precision metal finishing services that include shot and laser peening, peen forming, heat treating and coating services through 51 facilities located in North America and Europe.

Curtiss-Wright Corporation, headquartered in Roseland, NJ, is a diversified company that designs, manufactures and overhauls products for motion control and flow control applications in addition to providing metal treatment services. More information on Curtiss-Wright can be found by visiting www.curtisswright.com.

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Metal Improvement Company Acquires Six Coating Application Facilities

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HOME / NEWS / METAL IMPROVEMENT COMPANY ACQUIRES SIX COATING APPLICATION FACILITIES

METAL IMPROVEMENT COMPANY ACQUIRES SIX COATING APPLICATION FACILITIES

2 April 2003

The Metal Improvement Company (“MIC”), a wholly owned subsidiary of the Curtiss-Wright Corporation, announced the acquisition of the assets of six USA E/M Engineered Coatings Solutions facilities.

The six E/M Coating application facilities have a total of 237,000 square feet and approximately 278 employees. They are strategically located across the USA in Chicago IL; Detroit MI; Minneapolis MN; Hartford CT; and North Hollywood and Chatsworth, CA. The facilities will henceforth be doing business as the “E/M Coating Services” Division of the Metal Improvement Company.

Taken all together, E/M Coating Services Group constitutes the largest provider of solid film lubricant coatings in North America. Each facility has the capability of applying over 1,100 different coatings to impart lubrication, corrosion resistance, and certain cosmetic and dielectric properties to selected components. The coatings are used in a broad range of products and industries whenever conventional wet lubricants provide insufficient protection due to high temperatures, extreme loads, corrosion, wear, chemical corrosion or other adverse operating conditions.

E/M Coating Services supports a diverse customer base including the aerospace, automotive, electronics, industrial, medical, military and semi-conductor markets. In 2002, automotive (35% total sales), general industrial (26%) and aerospace (25%) markets generated the majority of the Group’s revenues.

All facilities have extensive equipment, procedures and programs in place to handle solid, water and air discharges in compliance with local and state environmental regulations. The facilities also have key certifications including ISO 9000, ISO 9002, QS 9000, FAA and ATF.

Commenting on the acquisition, Martin Benante, Chairman and CEO of Curtiss-Wright, stated, “This acquisition advances the strategic objectives of our Metal Treatment business segment by diversifying our capabilities beyond traditional shot-peening services. It provides a major opportunity to gain an immediate and significant foothold in the outsourced specialty coating service market segment with a large sales platform and multiple plant locations.”

Metal Improvement Company, headquartered in Paramus, NJ, is a recognized worldwide leader in providing outsourced shot-peening, shot-peen forming, heat treating and specialty industrial coatings. These metal treatment services are provided to the aerospace, defense, automotive, petrochemical, agricultural equipment, power generation, medical and metalworking industries. Operations are conducted through a network of 51 service facilities located in North America and Europe. More information on Metal Improvement Company can be found on the internet at www.metalimprovement.com.

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Metal Improvement Acquires Swedish Metal Treatment Facility

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HOME / NEWS / METAL IMPROVEMENT ACQUIRES SWEDISH METAL TREATMENT FACILITY

METAL IMPROVEMENT ACQUIRES SWEDISH METAL TREATMENT FACILITY

11 April 2002

The Metal Improvement Company, a wholly owned subsidiary of the Curtiss-Wright Corporation, announced today that it has acquired Ytstruktur Arboga AB, a metal treatment firm located in Arboga, Sweden. The company specializes in controlled shot peening, non-destructive testing and other metal finishing processes. Ytstruktur Arboga services the Scandinavian market with a customer base concentration in the automotive, aerospace, and power generation industries.

Martin Benante, Chairman and CEO of Curtiss-Wright, stated, “The addition of Ytstruktur Arboga provides us with access to an attractive new market and increases the number of our European metal treatment facilities to 11.”

Metal Improvement Company, headquartered in Paramus, NJ, is a recognized worldwide leader in providing outsourced shot-peening, shot-peen forming and heat treating. These metal treatment services are provided to the aerospace, defense, automotive, petrochemical, agricultural equipment, power generation, medical and metalworking industries. Operations are conducted through a network of 43 service facilities located in North America and Europe. More information on Metal Improvement Company can be found on the internet at www.metalimprovement.com.

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