RESEARCH PROGRESS ON TRIAXIAL WOVEN FABRICS AND ITS COMPOSITES

Abstract

Abstract: A brief introduction on triaxial woven fabric and its composites was made in the paper, which focuses on the structure, fabrication, properties and simulation of triaxial woven fabrics and its composites. The mechanical properties of triaxial woven fabric and its composites were analyzed and summarized. Simulation models of triaxial woven fabric and its composites were highlighted. At last, the research trends and prospect of triaxial woven fabric and its composites were discussed.

Key words: triaxial woven fabric, composites, fabricating, mechanical properties, simulation

CLC Number:

TB332

RAO Yun-fei, ZHANG Chen, WANG Qing-tao, LI Wei. RESEARCH PROGRESS ON TRIAXIAL WOVEN FABRICS AND ITS COMPOSITES[J]. Fiber Reinforced Plastics/Composites, 2018, 0(11): 117-121.

References

[1] 杨志清. 织物组织结构特殊的三向织物[J]. 北京纺织, 2004, 25(6): 61-61.
[2] Aoki T, Yoshida K. Mechanical and thermal behaviors of triaxially-woven carbon/epoxy fabric composite[C]//Proceedings of the 47th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, AIAA. 2006.
[3] Kueh A B. Buckling of sandwich columns reinforced by triaxial weave fabric composite skin-sheets[J]. International Journal of Mechanical Sciences, 2013, 66: 45-54.
[4] Vadala E T. Triaxially woven fabrics of Kevlar, dacron polyester and hybrids of Kevlar and dacron polyester[R]. Washington DC: Naval Air Department of Navy, 1980: 1-15.
[5] Santiago-Prowald J, Baier H. Advances in deployable structures and surfaces for large apertures in space[J]. Ceas Space Journal, 2013, 5(3-4):89-115.
[6] Aoki T, Yoshida K, Watanabe A. Tri-azially woven fabric composites for aerospace applications[C]//2008 national academic symposium for ph. d. candidates and tri-university workshop on aero-structural mechanics & aerospace engineering. 2008.
[7] Higuchi K, Ogi Y, Watanabe K, et al. Verification of practical use of an inflatable structure in space[J]. Transactions of the Japan Society for Aeronautical & Space Sciences Space Technology Japan, 2009, 7(7): 7-11.
[8] Dow N F. Triaxial fabric: US Patent, 3446251[P]. 1969-05-27.
[9] Dow N F, Tranfield G. Preliminary investigations of feasibility of weaving triaxial fabrics (doweave)[J]. Textile Research Journal, 1970, 40(11): 986-998.
[10] Dow N F. Triaxially woven fabrics of uniform compliancy and porosity: US Patent, 3874422[P]. 1974-09-10.
[11] 孙洁, 施楣梧, 钱坤. 平面三向织物的结构与性能[J]. 纺织学报, 2014, 35(6): 154-162.
[12] 张芳. 平面三向织机与三向织物研制成功并通过鉴定[J]. 东华大学学报(自然科学版), 1987, 6(6): 118-118.
[13] 施永林, 杨青. 平面三向织机打纬机构的运动规律和共轭凸轮设计[J]. 东华大学学报(自然科学版), 1990, 16(5): 162-169.
[14] 袁佳玲. 平面三向织机经纱张力环的设计[J]. 东华大学学报(自然科学版), 1988, 14(4): 50-55.
[15] Tyler T. 7-Developments in triaxial woven fabrics[J]. Specialist Yarn & Fabric Structures, 2011, 47(1): 141-163.
[16] Tan L T, Pellegrino S. Ultra thin deployable reflector antennas[C]//45th AIAA/ASME/ASCE/AHS/ ASC Structures, Structural Dynamics and Materials Conference. Palm Springs: American insti-tute of Aeronautics and Astronautics Paper, 2004-1730, 2005: 1-10.
[17] Skelton J. Triaxially woven fabrics: Their structure and properties[J]. Textile Research Journal, 1971, 41(8): 637-647.
[18] Scardino F L, Ko F K. Triaxial woven fabrics: Part Ⅰ: Behavior under tensile, shear, and burst deformation[J]. Textile Research Journal, 1981, 51(2): 80-89.
[19] Schwartz P, Fornes R E, Mohamed M H. Tensile properties of triaxially woven fabrics under biaxial loading[J]. Journal of Engineering for Industry, 1980, 102(4): 327-332.
[20] Schwartz P. Bending properties of triaxially woven fabrics[J]. Textile Research Journal, 1982, 52(9): 604-606.
[21] Schwartz P, Fornes R, Mohamed M. An analysis of the mechanical behavior of triaxial fabrics and the equivalency of conventional fabrics[J]. Textile Research Journal, 1982, 52(6): 388-394.
[22] Schwartz P. Complex triaxial fabrics-cover, flexural rigidity, and tear strength[J]. Textile Research Journal, 1984, 54(9): 581-584.
[23] 区秋明, 袁观洛. 多种三向织物[J]. 丝绸译丛, 1979, 3(1): 24-28.
[24] Elmessiry M, El-Tahan E. Stab resistance of triaxial woven fabrics for soft body armor[J]. Journal of Industrial Textiles, 2014, 45(5): 1062-1082.
[25] Zhao Q. Mechanical behavior of triaxial woven fabric (TWF) composites[D]. Montreal: Concordia University, 2003.
[26] Xu D, Ganesan R, Hoa S V. Buckling analysis of tri-axial woven fabric composite structures subjected to bi-axial loading[J]. Composite structures, 2007, 78(1): 140-152.
[27] Fujita A, Hamada H, Maekawa Z. Tensile properties of carbon fiber triaxial woven fabric composites[J]. Journal of Composite Materials, 1993, 27(15): 1428-1442.
[28] Zhao Q, Hoa S, Ouellette P. Progressive failure of triaxial woven fabric (TWF) composites with open holes[J]. Composite structures, 2004, 65(3): 419-431.
[29] Aoki T, Kosugi Y, Watanabe A, et al. Durability of tri-axially woven fabric composites for space applications[C]//18th International Conference on Comoosite Materials. Jeiu Island: 2011: 1-6.
[30] Aoki T, Kosugi Y, Watanabe A. Fatigue characteristic and damage accumulation mechanism of triaxially-woven fabric composite[C]//52nd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference 19th AIAA/ASME/AHS Adaptive Structures Conference 13t. 2011: 1993.
[31] Marie-Lauredano G G, Andre Picard. Mechanical behavior of a triaxial woven fabric composite[J]. Mechanics of Composite Materials & Structures, 2000, 7(2): 207-224.
[32] Kueh A, Soykasap O, Pellegrino S. Thermo-mechanical behaviour of single-ply triaxial weave carbon fibre reinforced plastic[C]//Spacecraft Structures, Materials and Mechanical Testing 2005. 2005.
[33] Aoki T, Yoshida K, Watanabe A. Thermo-mechanical properties of triaxially-woven fabric composite for deployable structures[C]//16th international conference on composite materials. Kyoto: 2007: 1-7.
[34] Cooper D N E. The stiffness of woven textiles[J]. Journal of the Textile Institute Proceedings, 1960, 51(51): T317-T335.
[35] Kawabata S, Inoue M, Niwa M. Theoretical analysis of the non-linear deformation properties of a triaxial weave under biaxial stress fields[J]. Composites Science & Technology, 1996, 56(3): 261-271.
[36] Kawabata S, Mariinoue, Masakoniwa. Non-linear theory of the biaxial deformation of a triaxial-weave fabric[J]. Journal of the Textile Institute Proceedings & Abstracts, 1992, 83(1): 104-119.
[37] Yan Y, Van Hoa S. Energy model for prediction of mechanical behavior of 2-D triaxially braided composites, Part Ⅰ: model devel-opment[J]. Journal of composite materials, 2002, 36(8): 963-981.
[38] Yan Y, Van Hoa S. Energy approach for prediction of mechanical behavior of 2-D triaxially braided composites Part Ⅱ: Parameter analysis[J]. Journal of composite materials, 2002, 36(10): 1233-1253.
[39] Yoshino T, Ohtsuka T, Shinguchi M. Microscopic stress analysis by 3-D FEM of triaxial woven fabric reinforced plastic[J]. J Japan Society Mech Eng (A), 1994, 471(60): 1260-1265.
[40] Hoa S, Sheng S, Ouellette P. Determination of elastic properties of triax composite materials[J]. Composites science and technology, 2003, 63(3): 437-443.
[41] Xu D, Ganesan R, Hoa S V. Buckling analysis of tri-axial woven fabric composite structures. Part Ⅰ: Non-linear finite element formulation[J]. Composite structures, 2005, 67(1): 37-55.
[42] Xu D, Hoa S V, Ganesan R. Buckling analysis of tri-axial woven fabric composite structures. Part Ⅱ: parametric study-uni-directional loading[J]. Composite structures, 2006, 72(2): 236-253.
[43] Kueh A, Pellegrino S. ABD matrix of single-ply triaxial weave fabric composites[C] //48th AIAA Structures, Structural Dynamics and Materials conference. 2007.
[44] Zhao Q, Hoa S. Triaxial woven fabric (TWF) com-posites with open holes (part Ⅰ): finite element models for analysis[J]. Journal of composite materials, 2003, 37(9): 763-789.
[45] Zhao Q, Hoa S, Ouellette P. Triaxial woven fabric (TWF) compos-ites with open holes (Part Ⅱ): Verification of the finite element models[J]. Journal of composite materials, 2003, 37(10): 849-873.
[46] Zhao Q, Hoa S. Finite element modeling of a membrane sector of a satellite reflector made of triaxial composites[J]. Journal of composite materials, 2005, 39(7): 581-600.
[47] Mishra R. Meso-scale finite element modeling of triaxial woven fabrics for composite in-plane reinforcement properties[J]. Textile Research Journal, 2013, 83(17): 1836-1845.
[48] Kueh A. Fitting-free hyperelastic strain energy formulation for triaxial weave fabric composites[J]. Mechanics of Materials, 2012, 47: 11-23.
[49] Bai J, Xiong J, Liu M, et al. Analytical solutions for predicting tensile and shear moduli of triaxial weave fabric composites[J]. Acta Mechanica Solida Sinica, 2016, 29(1): 59-77.
[50] Kueh A, Pellegrino S. Thermo-elastic behaviour of single ply triaxial woven fabric composites[C]//47th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference 14th AIAA/ASME/AHS Adaptive Structures Conference 7th. 2006: 1899.