Structural Design and Weaving of 3D Orthogonal Integrated Cellular Woven Fabrics
The whole structural characteristics of the 3D orthogonal integrated cellular woven fabrics were introduced from four aspects: the yarn constitution, basic cell, cellular shape and the weaving order. Ten 3D orthogonal integrated cellular woven fabric structures, with different hexagon-shape cross sections, were designed by changing the side length and thickness of the hexagon-shape hollow, including four kinds, named orthogonal 2, orthogonal 4, orthogonal 6 and orthogonal 8 respectively. Based on this, the characteristics of these ten structures were analyzed and compared to each other. Ten structures were woven successfully in reformed conventional loom, using glass fiber and carbon fiber as the materials, and their weaving process was also introduced. Finally part of the fabrics was shown. The thickness of these fabrics and their hollow sides was also measured. This research can be references to the structure design of 3D orthogonal integrated cellular woven fabrics. All the designed 3D cellular woven fabrics can be used as the reinforced structures of fabric/resin composites.
Orthogonal 3D woven fabrics Cellular structure Binding mode
Dongyi Tan Chengyan Zhu
Key Laboratory of Advanced Textile Materials and Manufacturing Technology,Ministry of Education, Hangzhou 310018, China
国际会议
杭州
英文
218-223
2006-08-22(万方平台首次上网日期,不代表论文的发表时间)