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High-precision braiding: glast, collapsed, assembled biaxial and triaxial tubular, T and J shapes, and mandrel over-braids.

braid

Aerospace designers routinely specify dry carbon fiber braided preforms for stiffening curved surfaces in aircraft. Bally Ribbon Mills has developed high-precision braiding technology that employs a wide range of other fibers and hybrids.

We braid these fibers into lightweight, high strength preforms that conform precisely to the curvature of any shape available in your choice of collapsed or assembled, biaxial or triaxial tubes.

For complex shaped preforms, our Advanced Products Group has developed the process of mandrel over-braiding.

3-D Woven Composites: Characteristics & Uses

Utilizing 3-D woven composite structures in place of traditional metal or 2-D laminated composites can provide cost savings through both the manufacturing process and a product’s operational lifetime. In this […]

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Bally Ribbon Mills embraces Six Sigma Methodology

Bally Ribbon Mills has effectively embraced the Six Sigma methodology for improved productivity, efficiency and cost savings which allows us to better serve the needs of our customers  3.4 The […]

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Inside, we highlight topics such as:

  • Common Specifications: (Mil-Spec, PIA, & UL)
  • Fabrication Methods: (Braiding, Jacquard Loom, Shuttle Loom, etc.)
  • Weave Types: (Basket, Plain, Satin, Twill)

Additional Resources

Understanding the  Versality of 3D Woven  CompositesDownload eBook Benefits of shuttle  Loom WeavingDownload eBook
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