Material parameters in 3D finite element analysis of composite structure
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摘要: 在调研现有文献复合材料结构三维数值分析中材料参数的基础上,阐述了基于单层板材料性能数据建立复合材料三维材料参数的方法.通过对复合材料π接头结构的三维数值模拟和试验,研究了三维材料参数中不确定参数对结构刚度预测的影响;分别采用三维修正的最大应力准则、最大应变准则、蔡-胡准则和Hashin准则评价π接头的初始破坏,结合试验数据,研究不同失效准则对复合材料π接头结构的适用范围以及材料参数对初始破坏强度预测的影响.研究工作可为一般层合复合材料结构的三维建模提供参考,并为深入理解复合材料π接头结构力学性能、准确预测其破坏强度提供理论支持.Abstract: The method to determine 3D composite material properties by means of engineering constants of composite lamina was summarized by investigating lots of existed literatures. The effect of uncertain variables in material parameters upon the stiffness prediction was researched by 3D numerical simulation and the corresponding experiments of composite π joint structure. Further, the initial failure of composite π joint structure was assessed by the modified maximum stress and strain, Tsai-Hu and Hashin failure criteria. The damage onset loads with different failure criteria and material parameter model were compared and the influence of material parameter model on the prediction of initial failure load and location was expatiated together with the experimental data. The research provides reference for numerical analysis of general 3D composite laminate structures. Moreover, it offers theoretical support for understanding mechanics behaviors and accurate strength prediction of composite π joint.
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Key words:
- composite materials /
- adhesively joint /
- parameter estimation /
- strength of materials
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[1] Taylor R M,Owens S D.Correlation of an analysis tool for 3-D reinforced bonded joints on the F-35 joint strike fighter .AIAA-2004-1562,2004 [2] Butler B.Composites affordability initiative .AIAA-2000-1379,2000 [3] Zhao Libin,Qin Tianliang,Huang Hai,et al.Model investigation on composite failure prediction of joint structures[J].Rare Mental Materials and Engineering,2009,38(S3):105-108 [4] 张志民.复合材料结构力学[M].北京:北京航空航天大学出版社,1993:30-32 Zhang Zhimin.Structural mechanics of composite materials [M].Beijing:Press of Beijing University of Aeronautics and Astronautics,1993:30-32(in Chinese) [5] 沈真,杨胜春.飞机结构用复合材料的力学性能要求[J].材料工程,2007(增刊1):248-252 Shen Zhen,Yang Shengchun.Property requirements of composite systems applicable to aircraft structures [J].Journal of Materials Engineering,2007(Supplement 1):248-252(in Chinese) [6] Christensen R M.Tensor transformation and failure criteria for analysis of fiber composite materials[J].Journal of Composite Materials,1988,22(9):874-897 [7] Feih S,Shercliff H R.Composite failure prediction of single-L joint structures under bending[J].Composites A:Applied Science and Manufacturing,2005,36(3):381-395 [8] Krueger R,O’Brien T K.A shell/3D modeling technique for the analysis of delaminated composite laminates[J].Composites:Part A,2001,32(1):25-44 [9] Jones R,Sawyer J P,Chiu W K.Studies in the matrix dominated failures of composite joints[J].Composite Structures,1999,44(1):1-16 [10] Panigrahia S K,Pradhan B.Through-the-width delamination damage propagation characteristics in single-lap laminated FRP composite joints[J].International Journal of Adhesion & Adhesives,2009,29(2):114-124 [11] Cho Y B,Averill R C.First-order zig-zag sublaminate plate theory and finite element model for laminated composite and sandwich panels[J].Composite Structures,2000,50(1):1-15 [12] Kwang-Soo K,Yeong-Moo Y,Gwang-Rae C,et al.Failure prediction and strength improvement of uni-directional composite single lap bonded joints[J].Composite Structures,2008,82(4):513-520 [13] Shin K C,Lee J J.Effects of thermal residual stresses on failure of co-cured lap joints with steel and carbon fiber epoxy composite adherends under static and fatigue tensile loads[J].Composites:Part A,2006,37(3):476-487 [14] Tay T E,Tan S H,Tan V B,et al.Damage progression by the element-failure method(EFM) and strain invariant failure theory(SIFT)[J].Composites Science and Technology,2005,65(6):935-944 [15] Davila C G,Camanho P P.Analysis of the effects of residual strains and effects on skin/stiffener debonding using decohesion elements .AIAA-2003-1465,2003 [16] Lim S H,Li Shuguang.Energy release rates for transverse cracking and delaminations induced by transverse cracks in laminated composites[J].Composites:Part A,2005,36(11):1467-1476 [17] Turon A,Camanho P P,Costa J,et al.An interface damage model for the simulation of delamination under variable-Mode ratio in Composite Materials .NASA/TM-2004-213277,2004 [18] Turon A,Davila C G,Camanho P P,et al.An engineering solution for using coarse meshes in the simulation of delamination with cohesive zone models .NASA/TM-2005-213547,2005 [19] Hiel C C,Sumich M,Chappell D P.A curved beam test specimen for determining the interlaminar tensile strength of a laminated composite[J].Journal of Composite Materials,1991,25(7):854-868 [20] Shenoi R A,Hawkins G L.Influence of material and geometry variations on the behaviour of bonded tee connections in FRP ships[J].Composites,1992,23(5):335-345 [21] 赵丽滨,彭雷,张建宇,等.复合材料π接头拉伸力学性能的试验和计算研究[J].复合材料学报,2009,26(2):181-186 Zhao Libin,Peng Lei,Zhang Jianyu,et al.Experimental and numerial research on mechanics performance of composite π joint under tensile loading [J].Acta Materiae Compositae Sinica,2009,26(2):181-186(in Chinese) [22] Hashin Z.Failure criteria for unidirectional fiber composites[J].Journal of Applied Mechanics,1980,47(2):329-334 [23] Reddy H N.Mechanics of laminated composite plates:Theory and analysis[M].Boca Raton,FL:CRC Press,1997:752-754
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