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含Cohesive单元的舱门蒙皮低速冲击有限元仿真
引用本文:左锐,左洪福,芦吉云,徐瑀童. 含Cohesive单元的舱门蒙皮低速冲击有限元仿真[J]. 四川兵工学报, 2017, 0(2): 163-167. DOI: 10.11809/scbgxb2017.02.036
作者姓名:左锐  左洪福  芦吉云  徐瑀童
作者单位:南京航空航天大学民航学院,南京,211100
基金项目:航空发动机机队维修决策优化方法与关键技术项目(U1533202),国家自然科学基金资助项目(51405223),江苏省普通高校研究生科研创新计划项目(KYLX15_0313),中央高校基本科研业务费专项基金资助项目(NS2015072)
摘    要:利用3D Hashin失效准则预测复合材料气密性舱门蒙皮4种层内损伤模式:纤维拉伸、纤维压缩、基体拉伸和基体压缩,进行低速冲击有限元仿真分析;使用Cohesive单元结合QUADS失效准则代替VCCT技术模拟分层失效;比较不同网格密度、冲击位置以及冲击能量下对数值分析的影响.仿真结果表明:冲击点越接近筋条缘条中央位置,冲击损伤面积越大,应作为舱门健康监测研究中重要监测对象之一.

关 键 词:气密性舱门  低速冲击  健康监测  冲击能量

Finite Element Simulation for Application to Low Velocity Impact Problem of Aircraft Door Skin with Cohesive Element
ZUO Rui,ZUO Hong-fu,LU Ji-yun,XU Yu-tong. Finite Element Simulation for Application to Low Velocity Impact Problem of Aircraft Door Skin with Cohesive Element[J]. , 2017, 0(2): 163-167. DOI: 10.11809/scbgxb2017.02.036
Authors:ZUO Rui  ZUO Hong-fu  LU Ji-yun  XU Yu-tong
Abstract:Composite skin of airtight aircraft door 3 D FE model was built for the application to low velocity impact simulation,predicting 4 kinds of inner-layer damage with 3D Hashin failure criteria:tensile fiber mode,compressive fiber mode,tensile matrix mode and compressive matrix mode.The delamination failure was implemented by the cohesive zone model with QUADS instead of VCCT technology.By making comparison numerical analysis of different mesh densities,impact energies and locations,simulation results show that the nearer the location is to the flange center,the larger damage area gets,which references for important monitoring locations in aircraft door health monitoring.
Keywords:aircraft door  low-velocity impact  health monitoring  impact energy
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