提出了一种由刚性元和零厚度的内聚力单元组合而成的新型界面单元,该界面单元嵌在板壳结构界面之间,可用来模拟界面损伤的起始和演化,能考虑板壳的平动和转动对分层损伤的作用.该界面单元具有有限厚度,八个结点,每个结点有五个自由度,通过刚性元将板壳单元结点的位移和结点力转换到内部零厚度的内聚力单元上,界面损伤通过内聚力单元的损伤演化体现出来.采用板壳单元和新型界面单元建立有限元模型,对混合弯曲(MMB)试验和双悬臂梁(DCB)弯曲试验进行了计算模拟,计算结果能很好地模拟结构的界面损伤过程.相比传统的用内聚力单元和三维实体单元组成的模型,建模方便,在精度相当的前提下,可以使单元尺寸增大一倍,减少裂尖内聚力区域(cohesive zone)内的单元数量,缩小计算规模,提高计算效率.
参考文献
| [1] | Khoramishad H,Crocombe A D,Katnam K B,et al.Fatigue damage modelling of adhesively bonded joints under variable amplitude loading using a cohesive zone model[J].Engineering Fracture Mechanics,2011,78:3212-3225. |
| [2] | Atas A,Mohamed G F,Soutis C.Modelling delamination onset and growth in pin loaded composite laminates[J].Composites Science and Technology,2012,72:1096-1101. |
| [3] | Aymerich F,Dore F,Priolo P.Prediction of impact-induced delamination in cross-ply composite laminates using cohesive interface elements[J].Composites Science and Technology,2008,68:2383-2390. |
| [4] | 张 丽,李亚智,张金奎.复合材料层合板在低速冲击作用下的损伤分析[J].科学技术与工程,2010,10(5):1671-1815.Zhang Li,Li Yazhi,Zhang Jinkui.Low-velocity impact damage analysis in composite laminates[J].Science Technology and Engineering,2010,10(5):1671-1815. |
| [5] | Yang Q D,Cox B N.Cohesive models for damage evolution in laminated composite[J].International Journal of Fracture,2006,133:107-137. |
| [6] | Paul W,Harper,Stephen R,et al.Cohesive zone length in numerical simulations of composite delamination[J].Engineering Fracture Mechanics,2008,75:4774-4792. |
| [7] | Falk M L,Needman A,Rice J R.A critical evaluation of cohesive zone models of dynamic fracture[J].Journal de Physique Ⅳ,2001:543-550. |
| [8] | Gray P J,McCarthy C T.A global bolted joint model for finite element analysis of load distributions in multi bolt composite joints[J].Composite:Part B,2010,41:317-325. |
| [9] | 阎崇年,范舟,程小全,等.含开口复合材料柱面壳压缩性能[J].北京航空航天大学学报,2012,7:920-924.Yan Chongnian,Fan Zhou,Cheng Xiaoquan,et al.Compressive behaviour of composite cylindrical shell with open hole[J].Journal of Beijing University of Aeronautics and Astronautics,2012,7:920-924. |
| [10] | Borg R,Nilsson L,Simonsson K.Simulating DCB,ENF and MMB experiments using shell elements and a cohesive zone model[J].Composite Science and Technology,2004,64:269-278. |
| [11] | Reedy E D,Mello F J,Guess T R,et al.Modeling the initiation and growth of delaminations in composite structures[J].Journal of CompositeMatrials,1997,31:812-831. |
| [12] | 李亚智,郭晓波,黄志远.基于组合单元的层压复合材料三维应力分析[J].复合材料学报,2009,26(3):207-212.Li Yazhi,Guo Xiaobo,Huang Zhiyuan.3D stress analysis of composite laminate based on a kind of interfacial element[J].Acta Materiae Compositae Sinica,2009,26(3):207-212. |
| [13] | 黄志远,李亚智,郭晓波.考虑三维应力的复合材料层压板疲劳寿命分析[J].复合材料学报,2010,26(1):173-178.Huang Zhiyuan,Li Yazhi,Guo Xiaobo.Fatigue life prediction of composite laminates incorporating 3D stress analysis[J].Acta Materiae Compositae Sinica,2010,26(1):173-178. |
| [14] | Camanho P P,Davila C G,Moura M F.Numerical simulation of mixed-mode progressive delamination in composite materials[J].Journal of Composite Materials,2003,37:1415-1438. |
| [15] | Lapczyl I,Juan A.Hurtado.Pregressive damage modeling in fiber-reinforced materials[J].Composite:Part A,2007,38:2333-2341. |
| [16] | Turon A,Davila C G,Camanho P P,et al.An engineering solution for mesh size effects in the simulation of delamination using cohesive zone models[J].Engineering Fracture Mechanics,2007,74:1665-1682. |
| [17] | Reeder J R,Demarco K,Whitley K S.The use of doubler reinforcement in delamination toughness testing[J].Composite:Part A,2004,35:1337-1344. |
| [18] | ABAQUS 6.11 User' s Manual.Providence,RI,USA:ABAQUS Inc,2011. |
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