|
|
- 2016
碳纤维复合材料接头力学性能试验与仿真分析
|
Abstract:
采用试验和仿真分析的方法对T800/924复合材料接头在拉伸载荷作用下的力学性能进行研究。在电子万能试验机上进行了接头试验件的拉伸试验,记录试验中试验件的破坏过程,得到了最终失效载荷。采用非线性有限元法,基于ABAQUS软件平台,使用内嵌的材料用户定义子程序(VUMAT),建立了该试验对应的有限元分析模型,得到接头的应变分布情况,并给出接头失效载荷的计算值。结果表明:计算预测接头的损伤部位与试验吻合,失效载荷计算值与试验值差值较小,证明了仿真分析方法的可行性。通过结果分析发现,孔边是应力集中的地方,破坏一般从孔边开始萌生,并且接头面外受载能力较弱,接头的失效模式一般是孔边面外拉脱。 The mechanical properties of T800/924 composite joints under tensile loading were studied by means of test and simulation analysis. The tensile test of the joint specimen was carried out on the electronic universal testing machine. The failure process of the specimen was recorded during the test and the final failure load was obtained. A nonlinear finite element method was used, based on the ABAQUS software platform, using the embedded material user defined subroutine (VUMAT). The finite element analysis model for the test was established to obtain the strain distribution of the joint, and the calculated value of the joint failure load was given. The results show that the calculation prediction of the damage parts for the joint are in agreement with the test. The difference values between calculated value and test value of the failure load are small. The feasibility of the simulation analysis method is proved. The results analysis show that hole edge is where the stress concentrated. The damage is usually initiated from hole edge and the ability of out-of -plane loaded of joint is poor. Failure mode of joint is generally the pull-out of hole edge surface. 国家自然科学基金(11302105);航空科学基金(2014ZF52074)
| [1] | HOLZWARTH R C. The structural cost and weight reduction potential of more unitized aircraft structure:AIAA-1998-1872[R]. Reston:AIAA, 1998:2218-2227. |
| [2] | PHILIPS H J, SHENOI R A. Damage tolerance of laminated tee-joints in FRP structures[J]. Composites Part A:Applied Science & Manufacturing, 1998, 29(4):465-478. |
| [3] | APALAK M K, GUNES R, TURAMAN M O. Thermal and geometrically non-linear stress analyses of an adhesively bonded composite tee joint[J]. Composites Part A:Applied Science & Manufacturing, 2003, 34(2):135-150. |
| [4] | SHENOI R A, READ P J C L, HAWKINS G L. Fatigue failure mechanisms in fibre-reinforced plastic laminated tee joints[J]. International Journal of Fatigue, 1995, 17(6):415-426. |
| [5] | BLAKEA J I R, SHENOIA R A, HOUSE J. Progressive damage analysis of tee joints with viscoelastic inserts[J]. Composites Part A:Applied Science & Manufacturing, 2001, 32(5):641-653. |
| [6] | FEIH S, SHERCLIFF H R. Adhesive and composite failure prediction of single-L joint structures under tensile loading[J]. International Journal of Adhesion & Adhesives, 2005, 25(1):47-59. |
| [7] | CARTIE D D R, ANNO G D. 3D reinforcement of stiffener-to-skin T-joints by Z-pinning andtufting[J]. Engineering Fracture Mechanics, 2006, 73(16):2532-2540. |
| [8] | ALLEGRI G, ZHANG X. On the delamination and debond suppression in structural joints by Z-fibre pinning[J]. Composites Part A:Applied Science & Manufacturing, 2007, 38(4):1107-1115. |
| [9] | STICKLER P B, RAMULU M. Experimental and numerical analysis of transverse stitched T-joints inbending[J]. Composite Structures, 2000, 50(1):17-27. |
| [10] | EGAN B, MCCARTHY M A, FRIZZELL R M. Modelling bearing failure in countersunk composite joints under quasi-static loading using 3D explicit finite element analysis[J]. Composite Structures, 2014, 108(1):963-977. |
| [11] | 李君, 姚学锋, 刘应华. 复合材料T型整体化结构固化翘曲变形模拟[J]. 复合材料学报, 2009, 26(1):157-161. LI J, YAO X F, LIU Y H. Simulation on curing warpage deformation of composite T-shaped integrated structure[J]. Acta Materiae Compositae Sinica, 2009, 26(1):157-161(in Chinese). |
| [12] | 沈真, 贺高, 陈业标. 复合材料结构设计手册[M]. 北京:航空工业出版社, 2004:477-505. SHEN Z, HE G, CHEN Y B. Design manual of composite material structure[M]. Beijing:Aviation Industry Press, 2004:477-505(in Chinese). |
| [13] | 杨乃宾, 章怡宁. 复合材料飞机结构设计[M]. 北京:航空工业出版社, 2002:1-19. YANG N B, ZHANG Y N. Aircraft structural design of composite materials[M]. Beijing:Aviation Industry Press, 2002:1-19(in Chinese). |
| [14] | 王轶哲. 基于累积损伤方法的复合材料层合板T型螺接接头的研究[J]. 江苏航空, 2012(增刊1):104-107. WANG Y Z. Research on the T-shaped joint of composite laminates based on the cumulative damage method[J]. Jiangsu Aviation, 2012(Suppl. 1):104-107(in Chinese). |
| [15] | 盛仪, 熊克, 卞侃. 拉伸状态下碳纤维复合材料T型接头的断裂行为[J]. 复合材料学报, 2013, 30(6):185-190. SHENG Y, XIONG K, BIAN K. Fracture behavior of carbon fiber T-joints under tensile load[J]. Acta Materiae Compositae Sinica, 2013, 30(6):185-190(in Chinese). |
| [16] | 孙旋. 复合材料加筋板冲击损伤模拟和剩余强度分析[D]. 南京:南京航空航天大学, 2010. SUN X. Simulation of impact damage on stiffened composite panels structures and CAI[D]. Nanjing:Nanjing University of Aeronautics and Astronautics, 2010(in Chinese). |
| [17] | 杜善义. 先进复合材料与航空航天[J]. 复合材料学报, 2007, 24(1):1-12. DU S Y. Advanced composite materials and aerospace engineering[J]. Acta Materiae Compositae Sinica, 2007, 24(1):1-12(in Chinese). |
| [18] | BUTLER B. Composites affordability initiative:AIAA-2000-1379[R]. Reston:AIAA, 2000:1-10. |
| [19] | ENGELSTAD S P, BERRY O T. A high fidelity composite bonded joint analysis validation study, Part ?:Analysis:AIAA-2005-2166[R]. Reston:AIAA, 2005:1-16. |
| [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] | DHARMAWAN F, THOMSON R S, LI H. Geometry and damage effects in a composite marine T-joint[J]. Composite Structures, 2004, 66(1-4):181-187. |
| [22] | MARCADON V, NADOTA Y, ROY A. Fatigue behavior of T-joints for marine applications[J]. International Journal of Adhesion Adhesives, 2006, 26(7):481-489. |
| [23] | EGAN B, MCCARTHY C T, MCCARTHY M A. Stress analysis of single-bolt, single-lap, countersunk composite joints with variable bolt-hole clearance[J]. Composite Structures, 2012, 94(3):1038-1051. |
| [24] | 赵丽滨, 秦田亮, 黄海. 某复合材料P接头的强度估算[J]. 材料工程, 2007(增刊1):90-93. ZHAO L B, QIN T L, HUANG H. Strength estimate of some composite P joint[J]. Journal of Materials Engineering, 2007(Suppl. 1):90-93(in Chinese). |
