Bally Ribbon Mills Announces Woven Webbing Materials for Aerospace Applications

Superior materials provide strength and lightness for structural components

Bally Ribbon Mills (BRM), an industry leader in the design, development, and manufacture of highly specialized engineered woven fabrics, announces its line of woven webbing for aerospace and aviation applications. The specialized narrow fabrics, 2D and 3D thermoset and thermoplastic fabrics, and innovative E-WEBBINGS® narrow woven fabrics are ideal for meeting specific strength requirements for structural components. The materials are widely used in such critical applications as parachutes; cargo restraint systems; seating and interior applications; crew safety system components; flight suits; air slides, seatbelts, and flotation devices. BRM woven webbing can be found in the International Space Station, and was used as a structural member on the landing system for NASA's Mars Exploration Rover Opportunity.

Using its decades of weaving expertise, BRM designs, engineers, and manufactures materials that maximize the end products' performance characteristics and properties - including durability, resistance to abrasion, chemicals, heat and weather. Compared to steel and aluminum materials, a strong and lightweight webbing reduces material costs, lowers fuel use, and increases safety. Custom engineered designs and special manufacturing processes can be modified to meet end user needs.
BRM's core product offerings include narrow woven fabrics, tapes, and webbing 12 inches wide or less, used for parachutes and a host of other commercial, aviation, and military and defense applications. BRM provides advanced designs using enhanced weaving technologies and materials woven from high-performance fibers like Kevlar®, Technora®, Vectran®, Zylon®, and UHMWPE.
Also available are lightweight, cost-effective, advanced woven 2D and 3D thermoset and thermoplastic polymer composite structures. Using a multi-dimensional continuous weaving method, Bally produces textiles that can be fabricated into net-shape structures. These advanced weaving capabilities offer customers new solutions that reduce weight and cost. The technology weaves complex shapes automatically, eliminating many costly, time-consuming, and labor-intensive processes.
BRM's latest and most innovative fabrics include 2D and 3D Thermoplastic Composite Materials (TPCM™) and the new engineered E-WEBBINGS®. TPCM™ is designed to be utilized as a localized reinforcement in varied molding/forming processes and provides superior specific strength, impact resistance, increased flexure and interlaminar shear resistance. BRM's E-WEBBINGS® product line was developed for the Internet of Things (IoT) technology sector, which is specially designed for use in integral products for commercial, personal, and military aircraft. Made from a wide variety of fibers and conductive elements, E-WEBBINGS provide structural and conductive components that allow for the integration of sensors and other technology into the webbing.
###
About Bally Ribbon Mills
Bally Ribbon Mills (BRM) designs, develops, and manufactures highly specialized engineered woven webbing, tapes, specialty fabrics, woven preforms, and two dimensional and three dimensional structural fabrics. With more than 95 years of textile manufacturing experience, BRM has earned a reputation for meeting new advanced design challenges. Working in aerospace, defense, medical, safety, automotive, commercial, and industrial applications, BRM offers ingenuity, technical know-how, extensive weaving capabilities, and rigorous quality assurance systems. For more information, visit www.ballyribbon.com or call 610-845-2211.

Featured Product

Zaber's X-LRQ-DE Series: High Precision Stages with Built-in Controllers and Linear Encoders

Zaber's X-LRQ-DE Series: High Precision Stages with Built-in Controllers and Linear Encoders

Zaber's X-LRQ-DE Series of linear stages have high stiffness, load, and lifetime capabilities in a compact size. The integrated linear encoder combined with stage calibration provides high accuracy positioning over the full travel of the device. At 36 mm high, these stages are excellent for applications where a low profile is required. The X-LRQ-DE's innovative design allows speeds up to 205 mm/s and loads up to 100 kg. Like all Zaber products, the X-LRQ-DE Series is designed for easy set-up and operation.