Deflection-Force Measurements and Observations on Kevlar 29® Parachute Fabrics
- 1 November 1992
- journal article
- Published by SAGE Publications in Textile Research Journal
- Vol. 62 (11) , 628-637
- https://doi.org/10.1177/004051759206201102
Abstract
Deflection-force relations for plain weave Kevlar® fabrics have been determined under conditions of uniaxial loading. In these experiments, the loading is stopped at a given level and a portion of the fabric is encapsulated. The fabric is then unloaded, sectioned, and photographed. Measurements on the photographs reveal the changes in weave geometry and yarn cross section with loading. The initial geometrical data are used in a large deformation mechanical model, which couples yarn bending and stretching effects to predict theoretical displacement-force relations for the fabric. Experimental and theoretical deflection-force curves are in good agreement; they show that during initial loading the response is dominated by yarn bending, while for large loads the response is dominated by yarn stretching.Keywords
This publication has 9 references indexed in Scilit:
- The large deformation elastic response of woven kevlar fabricPolymer Composites, 1992
- The elastic properties of woven polymeric fabricPolymer Engineering & Science, 1990
- High-Performance ParachutesScientific American, 1990
- Application of Kevlar to parachute system designJournal of Aircraft, 1986
- Wet Strength of Kevlar 29 Ribbon Parachute FabricsJournal of Aircraft, 1980
- A Technique for Simulating the Stength of Kevlar 29 Yarn in a Woven ConfigurationTextile Research Journal, 1979
- The Effect of Warp and Filling Variables on the Tensile Failure and Joint Strength of Kevlar® 29 Parachute .WebbingTextile Research Journal, 1979
- Kevlar 29 parachute fabricsPublished by American Institute of Aeronautics and Astronautics (AIAA) ,1975
- MATHER LECTURE, 1964. TWISTED STRUCTURESJournal of the Textile Institute Proceedings, 1964