RED SEAL ELECTRIC IS YOUR
Supplier and Fabricator Of Composiflex Products
Insulating Materials from Composiflex
Composiflex is a leader in innovative composite solutions, offering FlexPly® Composite Springs designed for high-performance industrial applications. Available in a variety of thicknesses and customizable layups, these springs are made with carbon/epoxy, E-glass epoxy, and high-temperature glass/epoxy materials. FlexPly® springs excel in vibratory equipment drive systems, where their durability and precision enhance performance in machinery like conveyors, vibratory feeders, oscillating sanders, and more. Red Seal Electric is proud to supply samples for testing to ensure the perfect fit for your application.
View Our Stock Material From Composiflex
Your trusted partner for Composiflex Material Distribution and fabrication
Frequently Asked Questions
-
FlexPly® Composite Springs are high-performance flat springs made from advanced materials like carbon/epoxy, E-glass epoxy, and high-temperature glass/epoxy. They are designed for industrial equipment applications, particularly in vibratory systems.
-
These springs are most commonly used in the drive systems of vibratory equipment, such as conveyors, vibratory feeders, oscillating sanders, vibratory rollers, and other machinery where they are loaded in bending and excited at their natural frequency.
-
Yes, Red Seal Electric is happy to provide samples of FlexPly® Composite Springs for testing. This allows you to ensure the springs meet your specific application requirements.
-
If your interested in purchasing FlexPly® Composite Springs or looking for fabrication, contact the Red Seal team by filling out our quote form.
Our supplier, Composiflex, designs and manufactures a variety of E-glass/epoxy, carbon/epoxy, and high-temperature glass/epoxy FlexPLY® composite springs for numerous industrial equipment applications. These flat springs are most commonly employed within the drive systems of vibratory equipment where they are loaded in bending and excited at their natural frequency.