为研究钉孔过盈配合情况和紧固件预紧力及二者混合作用对复合材料连接强度的影响及其机制,提出了一种基于试验验证的有限元方法,在有限元模拟结果与两组不同配合复合材料与钛合金单剪双钉连接拉伸试验吻合良好的基础上,进一步模拟6种不同螺栓预紧力和7种不同钉孔配合模式的组合,共42种不同情况的结构承载能力.通过对模拟结果的分析发现:一定的干涉配合值和预紧力虽然可能导致钉孔周围在受载较小时提前出现较小破坏,但在载荷较大时反而可以改善孔周的接触条件,从而减小孔周的纤维破坏范围,并最终提高连接结构的破坏载荷.而且钉孔配合情况和螺栓预紧力对连接结构承载能力会相互影响,即在不同钉孔配合情况下所得到的紧固件预紧力优化值会有所不同,反之亦然.因此在进行复合材料机械连接结构承载能力优化时,必须同时考虑不同参数的影响,才能获得最优的结构设计.
参考文献
| [1] | 陈向明,柴亚南,沈真.自定义粘接元接触技术在复合材料连接强度分析中的应用[J].复合材料学报,2011,28(6):230-236.Chen Xiangming,Chai Ya'nan,Shen Zhen.Application of contact technology based on the user-defined cohesive element in the strength analysis of composite fastened joint[J].Acta Materiae Compositae Sinica,2011,28(6):230-236. |
| [2] | 刘风雷.用于复合材料干涉结构的多功能紧固系统[J].航空制造技术,2007(3):98-101.Liu Fenglei.Multifunctional fastening system for composite interference structures[J].Aeronautical Manufacturing Technology,2007(3):98-101. |
| [3] | 唐晓东,高红.虚拟装配仿真技术在飞机研制阶段的应用[J].航空制造技术,2009(24):69-71.Tang Xiaodong,Gao Hong.Application of virtual assembly simulation technology in aircraft development period[J].Aeronautical Manufacturing Technology,2009(24):69-71. |
| [4] | Kiral B G.Effect of the clearance and interference-fit on failure of the pin-loaded composites[J].Materials and Design,2010,31:85-93. |
| [5] | 魏景超,贾普荣,矫桂琼.干涉对复合材料层合板连接系统的极限挤压强度影响[J].材料开发与应用,2011,26(3):66-69.Wei Jingehao,Jia Purong,Jiao Guiqiong.An experimental study on ultimate bearing strength of composite bolt joint with interferencefit[J].Development and Application of Materials,2011,26(3):66-69. |
| [6] | 魏冉.复合材料-钛合金机械连接结构承载能力及钉孔配合影响研究[D].上海:上海交通大学,2012.Wei Ran.Study on the load capacity of composite-to-titanium bolted joints and the influence of bolt-hole fit conditions[D].Shanghai:Shanghai Jiao Tong University,2012. |
| [7] | Sen F,Pakdil M,Sayman O,et al.Experimental failure analysis of mechanically fastened joints with clearance in composite laminates under preload[J].Materials and Design,2008,29:1159-1169. |
| [8] | Khashaba U A,Sallam H E M,Al-Shorbagy A E,et al.Effect of washer size and tightening torque on the performance of bolted joints in composite structures[J].Composite Structures,2006,73:310-317. |
| [9] | Cooper C,lbvey G J.Effects of joint geometry and bolt torque on the structural performance of single bolt tension joints in pultruded grp sheet material[J].Composite Structures,1995,32:217-226. |
| [10] | Iriarte F R,Fellows N A,Durodola J F.Experimental evaluation of the effect of clamping force and hole clearance on carbon composites subjected to bearing versus bypass loading[J].Composite Structures,2001,93:1096-1102. |
| [11] | Zhao Y,Ford D,Richardson S.Torque limit for fasteners in composites-Technical report,NASA/MSFC/ED23[R].Washington:NASA,2001. |
| [12] | Ekh J,SchOn J.Effect of secondary bending on strength prediction of composite,single shear lap joints[J].Composite Science and Technology,2005,65:953-965. |
| [13] | Chang F K,Chang K Y.A progressive damage model for laminated composites containing stress concentrations[J].Journal of Composite Materials,1987,21:834-855. |
| [14] | 石亦平,周玉蓉.ABAQUS有限元分析实例详解[M].北京:机械工业出版社,2006.Shi Yiping,Zhou Yurong.Example illustration of ABAQUS finite element analysis[M].Beijing:Mechanical Industry Press,2006. |
| [15] | Herrington P D,Sabbaghian M.Factors affecting the friction coefficients between metallic washers and composite surfaces[J].Compos,1991,22(6):418-424. |
| [16] | Tong L.Bearing failure of composite bolted joints with nonuniform bolt-to-washer clearance[J].Compos Part A:Appl Sci Manuf,2000,31(6):609-615. |
| [17] | Hashin Z.Failure criteria for unidirectional fiber composite[J].Journal of Applied Mechanics,1980,47:329-334. |
| [18] | Ye L.Role of Matrix Resin in delamination onset and growth in composite laminates[J].Composite Science and Technology,1988,33:257-277. |
| [19] | Camanho P P,Matthews F L.A progressive damage model for mechanically fastened joints in composite laminates[J].Jouranl of Composite Materials,1999,33(24):2248-2280. |
| [20] | Tserpesa K I,Labeasb G,Papanikosb P.Strength prediction of bolted joints in graphite/epoxy composite laminates[J].Composites Part B:Engineering,2002,33(7):521-529. |
| [21] | 郑海燕.编织复合材料的低速冲击及冲击后压缩特性研究——试验及数值计算[D].西安:西北工业大学,2002.Zheng Haiyan.Study of woven fabric composite low velocity impact and compression features after impact-Experiment and numerical simulation[D].Xi'an:Northwestern Polytechnical University,2002. |
| [22] | 程小全,杨琨,汪源龙,等.平面编织混杂铺层层合板单钉连接拉伸性能[J].力学学报,2010,42(5):901-907.Cheng Xiaoquan,Yang Kun,Wang Yuanlong,et al.Study on tension properties of hybrid laminated plain woven fabric composite with single bolt joint[J].Chinese Journal of Theoretical and Applied Mechanics,2010,42(5):901-907. |
| [23] | Military Handbook 5J.Metallic materials and elements for aerospace vehicle structures[M].Japan:Department of Defense,2003. |
| [24] | American Society for Testing and Materials.ASTM D 3039/D 3039M-08.Standard test method for tensile properties of polymer matrix composite materials[S].America:American Society for Testing and Materials,2008. |
| [25] | American Society for Testing and Materials.ASTM D 5961/D 5961M-10.Standard test method for bearing response of polymer matrix composite laminates[S].America:American Society for Testing and Materials,2010. |
| [26] | 飞机设计手册编辑委员会.飞机设计手册[M].第三册.北京:国防工业出版社,1983.Editorial Board of Aircraft Design Manual.Aircraft design manual[M].3rd edition.Beijing:National Defense Industry Press,1983. |
| [27] | 黄金昌,王晓东.复合材料夹层连接螺栓拧紧力矩试验研究[J].飞机设计,2009,29(2):32-40.Huang Jinchang,Wang Xiaodong.Study on tightening moment test of joint in sandwich of composites[J].Aircraft Design,2009,29(2):32-40. |
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