At Acme Mills, we know that in the aerospace industry, every detail matters—especially when it comes to seating. Comfort, durability, and safety are top priorities, but so is weight. That’s why we’ve engineered a comprehensive portfolio of technical fabrics specifically designed to meet the evolving needs of aerospace and transportation seating.
Our goal? To help manufacturers create seating systems that are lighter, safer, and more comfortable—without compromise.
Engineered for Performance and Precision
Our textiles are used in some of the most demanding applications in the world. In aerospace seating, we provide flame-retardant woven fabrics, lightweight composites, and our proprietary Dymetrol® suspension fabrics—a solution that offers ergonomic support and reduces reliance on foam and springs.
By integrating Dymetrol into seat systems, we’ve helped clients reduce overall seat weight, enhance breathability, and improve passenger comfort—critical factors in airline fuel efficiency and customer satisfaction.
Compliant, Comfortable, and Customizable
We understand that the aerospace industry demands strict regulatory compliance. That’s why our products are engineered to meet FAA flammability standards and other safety requirements. But we also design with the end user in mind. Our textiles offer:
- Consistent tension for ergonomic support
- Durability under constant vibration and load
- Breathability for extended comfort
- Customization in color, weave, and branding
Whether you’re designing for commercial aviation, rail, or bus systems, Acme Mills offers textile solutions that are fully tailored to your performance and aesthetic goals.
A Legacy of Innovation
With over a century of expertise in industrial textiles, we’re proud to be a trusted partner in aerospace seating innovation. From cabin seating to cockpit applications, our materials deliver reliability, sustainability, and modern performance.
Let us help you bring your next-generation seating vision to life—with textiles that truly take your applications further.