Analytical Solution for Predicting In-plane Elastic Shear Properties of 2D Orthogonal PWF Composites 被引量：2

Analytical Solution for Predicting In-plane Elastic Shear Properties of 2D Orthogonal PWF Composites

导出

摘要 This paper proposes a new analytical solution to predict the shear modulus of a two-dimensional（2D） plain weave fabric（PWF） composite accounting for the interaction of orthogonal interlacing strands with coupled shear deformation modes including not only relative bending but also torsion,etc.The two orthogonal yarns in a micromechanical unit cell are idealized as curved beams with a path depicted by using sinusoidal shape functions.The internal forces and macroscopic deformations carried by the yarn families,together with macroscopic shear modulus of PWFs are derived by means of a strain energy approach founded on micromechanics.Three sets of experimental data pertinent to three kinds of 2D orthogonal PWF composites have been implemented to validate the new model.The calculations from the new model are also compared with those by using two models in the earlier literature.It is shown that the experimental results correlate well with predictions from the new model. This paper proposes a new analytical solution to predict the shear modulus of a two-dimensional（2D） plain weave fabric（PWF） composite accounting for the interaction of orthogonal interlacing strands with coupled shear deformation modes including not only relative bending but also torsion,etc.The two orthogonal yarns in a micromechanical unit cell are idealized as curved beams with a path depicted by using sinusoidal shape functions.The internal forces and macroscopic deformations carried by the yarn families,together with macroscopic shear modulus of PWFs are derived by means of a strain energy approach founded on micromechanics.Three sets of experimental data pertinent to three kinds of 2D orthogonal PWF composites have been implemented to validate the new model.The calculations from the new model are also compared with those by using two models in the earlier literature.It is shown that the experimental results correlate well with predictions from the new model.

作者 CHENG Xu XIONG Junjiang BAI Jiangbo

机构地区 School of Transportation Science and Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CSCD 2012年第4期575-583,共9页 中国航空学报（英文版）

基金 National Natural Science Foundation of China(51075019) Aeronautical Science Foundation of China (20095251024)

关键词 textile composites mechanical properties shear modulus properties plain weave fabric textile composites mechanical properties shear modulus properties plain weave fabric

分类号 O157.5 [理学—基础数学] TB33 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献29

1Cox B N, Dadkhah M S, Morris W L. On the tensilefailure of 3D woven composites. Composites Part A1996; 27(6): 447-458.
2Callus P J, Mouritz A P, Bannister M K, et al. Tensileproperties and failure mechanisms of 3D woven GRPcomposites. Composites Part A 1999; 30(11): 1277-1287.
3Fleck A, Jelf P M, Curtis P T. Compressive failure oflaminated and woven composites. Journal of CompositesTechnology and Research 1995; 17(3): 212-220.
4Breiling K B, Adams D O. Effects of layer nesting oncompression loaded 2-D woven textile composites.Journal of Composite Materials 1996; 30(15):1710-1728.
5Nguyen M, Herzberg I, Paton R. The shear propertiesof carbon fabric. Composite Structures 1999; 47(15):767-779.
6Sun H Y, Pan N. Shear deformation analysis for wovenfabrics. Composite Structures 2005; 67(14): 317-322.
7Ishikawa T, Matsushima M, Hayashi Y, et al. Experimentalconfirmation of the theory of elastic moduli offabric composites. Journal of Composite Materials1985; 19(5): 443-458.
8Tan P, Tong L Y, Steven G P, et al. Behavior of 3D orthogonalwoven CFRP composites, Part I: experimentalinvestigation. Composites Part A 2000; 31(3): 259-271.
9Botelho E C, Figiel L, Rezende M C, et al. Mechanicalbehavior of carbon fiber reinforced polyamide composites.Composites Science and Technology 2003; 63(13):1843-1855.
10Wang Y J, Zhao D M. Effect of fabric structures on themechanical properties of 3-D textile composites. Journalof Industrial Textiles 2006; 35(3): 239-256.

同被引文献20

1王立朋,燕瑛.编织复合材料弹性性能的细观分析及试验研究[J].复合材料学报,2004,21(4):152-156. 被引量：22
2孙颖,李嘉禄,亢一澜.二步法三维编织复合材料弹性性能的有限元法预报[J].复合材料学报,2005,22(1):108-113. 被引量：8
3Xiong J, Shenoi R, Cheng X. A modified micromechani- cal carved beam analytical model to predict the tension modulus of 2D plain weave fabric composites [ J ]. Composites : Part B, 2009 (40) :776-783.
4Chang X, Xiong J. A novel analytical model for predic- ting the compression modulus of 2D PWF composites [ J ]. Com- posite Structures,2009,88 (2) :296-303.
5Kueh A, Pellegrion S. Triaxial weave fabric compos- ites[ R]. European Space Contractor Report, Department of Engi- neering, University of Cambridge,30 June 2007.
6曹春晓.一代材料技术,一代大型飞机[J].航空学报,2008,29(3):701-706. 被引量：131
7熊峻江,高镇同.The probability distribution of fatigue damage and the statistical moment of fatigue life[J].Science China(Technological Sciences),1997,40(3):279-284. 被引量：1
8BAI Jiangbo XIONG Junjiang CHENG Xu.Tear Resistance of Orthogonal Kevlar-PWF-reinforced TPU Film[J].Chinese Journal of Aeronautics,2011,24(1):113-118. 被引量：6
9LUO Chuyang,XIONG Junjiang.Static Pull and Push Bending Properties of RTM-made TWF Composite Tee-joints[J].Chinese Journal of Aeronautics,2012,25(2):198-207. 被引量：6
10严雪,许希武,张超.二维三轴编织复合材料的弹性性能分析[J].固体力学学报,2013,34(2):140-151. 被引量：18

引证文献2

1J.J.XIONG,R.A.SHENOI.General aspects on structural integrity[J].Chinese Journal of Aeronautics,2019,32(1):114-132. 被引量：10
2高军鹏,白江波,邓华,益小苏.间隙率对平纹及三轴向织物复合材料弹性性能的影响[J].宇航材料工艺,2014,44(5):20-24. 被引量：3

二级引证文献13

1周红涛,肖学良,钱坤.平面三向织物增强橡胶复合材料的偏轴拉伸性能研究[J].中国塑料,2019,33(3):38-42. 被引量：5
2Zhengqiang CHENG,Junjiang XIONG.Progressive damage behaviors of woven composite laminates subjected to LVI, TAI and CAI[J].Chinese Journal of Aeronautics,2020,33(10):2807-2823. 被引量：3
3Bing DU,Liming CHEN,Houchang LIU,Qinghao HE,Weiming QIN,Weiguo LI.Resistance welding of glass fiber reinforced thermoplastic composite:Experimental investigation and process parameter optimization[J].Chinese Journal of Aeronautics,2020,33(12):3469-3478.
4Binchao LIU,Rui BAO,Fucheng SUI.A fatigue damage-cumulative model in peridynamics[J].Chinese Journal of Aeronautics,2021,34(2):329-342. 被引量：2
5Xiaoqi LI,Xiaoquan CHENG,Yujia CHENG,Zhiyong WANG,Wenjun HUANG.Tensile properties of a composite–metal single-lap hybrid bonded/bolted joint[J].Chinese Journal of Aeronautics,2021,34(2):629-640. 被引量：4
6余坤,文立伟,宦华松.缝合复合材料T型加筋壁板的抗剪与抗弯性能[J].材料导报,2021,35(16):16190-16194. 被引量：2
7Xiaohong LI,Qin SUN.Simplification approaches for multi-level load spectra by using equivalent damage rule[J].Chinese Journal of Aeronautics,2021,34(11):119-130. 被引量：1
8张亦波,陈迪,成正强,沈培良,熊峻江.铝合金薄板冲击后疲劳试验与谱载寿命[J].航空学报,2022,43(1):373-386.
9Meijuan SHAN,Fengrui LIU,Wen YANG,Libin ZHAO,Jianyu ZHANG.Uncertainty evaluation for bearing fatigue property of CFRP double-lap,single-bolt joints[J].Chinese Journal of Aeronautics,2022,35(3):250-258. 被引量：1
10Yanping ZHENG,Chaoyu ZHANG,Ying TIE,Xu WANG,Mingkun LI.Tensile properties analysis of CFRP-titanium plate multi-bolt hybrid joints[J].Chinese Journal of Aeronautics,2022,35(3):464-474. 被引量：2

1吴文,徐松林,杨春和,白世伟.盐岩冲击特性试验研究[J].岩石力学与工程学报,2004,23(21):3613-3620. 被引量：24
2王桦,周刚毅,方生,张培强.磁流变弹性体剪切性能的动态实验研究[J].实验力学,2004,19(1):1-5. 被引量：11
3李培玉,程耀东.一种新型的ER液体剪切性能测试装置[J].机械科学与技术,1996,15(1):111-114.
4朱吉红.你有阿基米德的支点吗[J].知识就是力量,2013(11):71-71.
5江乐彬,谢惠民,王怀喜,郭保桥.单搭接胶接接头拉伸剪切性能的数值模拟与实验研究[J].实验力学,2012,27(6):643-649. 被引量：8
6闫绍荣.在数学教学中如何激发学生的兴趣[J].求知导刊,2015(5):142-142.
7KIM Myungsoo,SONG Jung-Il.Geometry effect on mechanical properties of woven fabric composites[J].Journal of Central South University,2011,18(6):1985-1993.
8范先令.p(x)-Laplace积分泛函的极小的径向对称性[J].甘肃教育学院学报（自然科学版）,2000,14(1):1-3.
9安亚欣,张奇峰,张所波.聚乙二醇添加剂对聚砜超滤膜结构和性能的影响[J].膜科学与技术,2015,35(5):64-70. 被引量：8
10鲸鱼搁浅是人祸[J].微型计算机,2008,28(32):15-15.

Chinese Journal of Aeronautics

2012年第4期

浏览历史

内容加载中请稍等...

Analytical Solution for Predicting In-plane Elastic Shear Properties of 2D Orthogonal PWF Composites 被引量：2

参考文献29

同被引文献20

引证文献2

二级引证文献13

相关作者

相关机构

相关主题

浏览历史