Welcome to Knowledge Base!

KB at your finger tips

This is one stop global knowledge base where you can learn about all the products, solutions and support features.

Categories
All

Products-Hexcel HexPly

Maximizing Absorption of Electromagnetic Energy with Hexcel HexPly Salisbury Screen

Overview of Hexcel HexPly Salisbury Screen

Hexcel HexPly Salisbury Screen, manufactured by ARC Technologies, a Hexcel company, is a cutting-edge solution for the suppression of electromagnetic energy. This flexible and lightweight foam absorber is designed to maximize absorption by closely controlling dielectric properties, allowing for targeted absorption at specific frequencies. The ARC-SS series, also known as Salisbury Screen, operates on the quarter wavelength absorption principle, ensuring effective cancellation of incident waves at the front of the absorber.

Key Features and Benefits

The Hexcel HexPly Salisbury Screen offers several key features and benefits. Firstly, its thin and flexible design makes it easy to cut, wrap, and apply, providing flexibility in various applications. The resonant-tuned nature of the foam absorber allows for efficient absorption of electromagnetic energy. By precisely controlling dielectric properties, this product ensures maximum absorption at desired frequencies, making it a versatile solution for interference control.

Applications and Industries

The Hexcel HexPly Salisbury Screen finds applications across a wide range of industries that require suppression of electromagnetic interference. In the commercial aerospace sector, this product can be used to enhance the performance and reliability of communication systems by reducing RF interference. In defense and industrial applications, the Salisbury Screen proves invaluable in maintaining signal integrity and minimizing electromagnetic noise. Its lightweight and easy-to-apply nature make it an ideal choice for various electronic devices and components.

Resources and Support

Hexcel provides a range of resources to support customers using HexPly Salisbury Screen. Datasheets, brochures, and product selector guides offer detailed information on the product specifications and applications. Additionally, Hexcel offers engineering support and sample materials for customers interested in evaluating the performance of the Salisbury Screen in their specific applications. This comprehensive support ensures that customers can harness the full potential of Hexcel HexPly Salisbury Screen for their electromagnetic interference control needs.

Sustainability and Innovation

Hexcel is committed to sustainability and innovation in all its products, including the HexPly Salisbury Screen. By innovating for the future, caring for people, and stewarding resources responsibly, Hexcel ensures that its products not only meet current industry standards but also contribute to a sustainable future. The HexPly Salisbury Screen showcases the company's dedication to providing high-performance solutions that align with environmental and social responsibility goals.

Enhancing Aerospace and Industrial Applications with Hexcel's HexForce® Reinforcements

Overview of HexForce® Reinforcements

Hexcel's HexForce® Reinforcements are at the forefront of enhancing the performance of materials in aerospace and industrial applications. The comprehensive range of globally certified aerospace products, including carbon, glass, aramid, and specialty fibers under the HexForce® trademark, offer unmatched quality and versatility. The woven fabric range of HexForce® Reinforcements caters to a spectrum of weave styles, fibers, and areal weights, allowing for tailored solutions based on specific mechanical properties, aesthetics, drapeability, and resin impregnation needs.

Read article

Enhancing Performance with Hexcel HexPly

Introduction to Hexcel HexPly

Hexcel HexPly is a cutting-edge line of prepreg materials developed by Hexcel, a leading advanced composites company. These prepregs are revolutionizing the aerospace, defense, and industrial sectors by providing unmatched performance, durability, and lightweight properties. HexPly products are engineered to enhance structural integrity, reduce weight, and improve overall efficiency in a wide range of applications.

Read article

Hexcel HexPly: A Legacy of Innovation and Excellence

The Birth of Innovation

Hexcel HexPly has a rich history that traces its roots back to the post-war laboratory of Roger Steele in the suburban area of Northern California. Founded by a group of fraternity brothers with a shared passion for technology and ingenuity, Hexcel made its mark in the aerospace industry as a pioneer in delivering advanced composite solutions. The early leaders of Hexcel, including Roger Steele and Bud Hughes, brought together a unique blend of skills and determination that laid the foundation for the company's success.

Read article

HexPly Multilayer Foam: Broadband RF Absorption Solution Overview

Overview of HexPly Multilayer Foam

Hexcel's HexPly Multilayer foam offers a comprehensive solution for broadband RF absorption needs ranging from 500 MHz to 40 GHz. This innovative product is designed to control surface currents effectively with a wide spectrum of applications. The Multilayer foam is a lightweight, flexible open-cell material that incorporates stepped carbon loads to meet high or low loss requirements. It is available in sheet form, making it easy to cut and shape as needed.

Read article

Hexcel HexPly Student Opportunities: Empowering Future Leaders in Advanced Composites Technology

Unlocking Potential through Student Programs

Hexcel's student opportunities aim to empower young individuals to realize their full potential in the field of advanced composites technology. Whether through apprenticeships, co-ops, internships, or other programs, Hexcel offers a platform for students to make a significant impact on the business. By joining these programs, students not only gain valuable new skills but also have the chance to work alongside industry experts and kickstart their career in a leading composite technology company.

Read article