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Plane hybrid stress elements for 3D analysis of moderately thick solids subjected to loading symmetric to midsurface

机译：平面混合应力单元，用于对中等厚度的固体进行3D分析，对称于中表面载荷

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Plane semi-analytical hybrid stress elements are formulated from the 3D Hellinger-Reissner principle for modelling moderately thick structural components with and without hollows subjected to loadings symmetric to the midsurface. These components possess symmetry in the thickness direction but could not be idealised as either plane stress or plane strain problems. 3D displacement and stress fields conforming to the exact plane stress solution are assumed and normal stresses on the surfaces parallel to the thickness direction are nullified. These 2D elements possess good convergence characteristics and simulate the 3D behaviour of solids whose stress free surfaces exhibit negligible out-of-plane distortion with good level of accuracy comparable to 3D analyses by ABAQUS.

机译：平面半解析混合应力单元是根据3D Hellinger-Reissner原理制定的，用于对中等厚度的结构部件（带有或不带有空心）进行对称于中表面的载荷进行建模。这些组件在厚度方向上具有对称性，但不能理想化为平面应力或平面应变问题。假定3D位移和符合精确平面应力解的应力场，并且平行于厚度方向的表面上的法向应力无效。这些2D元素具有良好的收敛特性，并且可以模拟固体的3D行为，这些固体的无应力表面表现出可忽略的面外变形，并且具有与ABAQUS进行3D分析相当的准确性。

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Xiao, Q.Z.; Dhanasekar, M.;
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1. Plane hybrid stress elements for 3D analysis of moderately thick solids subjected to loading symmetric to midsurface [J] . Xiao QZ, Dhanasekar M International Journal of Solids and Structures . 2007,第7a8期

机译：用于3D分析的平面混合应激元件对对称的载入对称的适度厚固体
2. 3D macroelement approach for nonlinear FE analysis of URM components subjected to in-plane and out-of-plane cyclic loading [J] . Minga E., Macorini L., Izzuddin B. A., Engineering Structures . 2020,第Octa1期

机译：非线性FE分析urm组件非线性FE分析的3D宏观切割方法和平面外循环载荷
3. Stress-hybrid quadrilateral finite element with embedded strong discontinuity for failure analysis of plane stress solids [J] . Dujc J., Brank B., Ibrahimbegovic A. International Journal for Numerical Methods in Engineering . 2013,第12期

机译：内含强不连续性的应力混合四边形有限元用于平面应力固体的破坏分析
4. A Three-dimensional Finite Element Stress Analysis and Strength Prediction of CFRP Adhesive Laminated Plates Subjected to Static and Impact Out-of-Plane Loadings [C] . Yukiya NOSHITA, Toshiyuki SAWA, Yuya OMIYA IMECE2009;ASME international mechanical engineering congress and exposition . 2010

机译：静态和冲击平面载荷作用下CFRP胶合板的三维有限元应力分析和强度预测
5. Nonlinear finite element analysis of reinforced concrete masonry walls (CMU) subjected to in-plane monotonic loading. [D] . Li, Jia. 2007

机译：平面内单调荷载下钢筋混凝土砌体墙的非线性有限元分析。
6. FEM Modeling of In-Plane Stress Distribution in Thick Brittle Coatings/Films on Ductile Substrates Subjected to Tensile Stress to Determine Interfacial Strength [O] . Kaishi Wang, Fangzhou Zhang, Rajendra K. Bordia 2018

机译：确定拉伸强度的延展性基体上厚脆性涂层/膜中平面应力分布的有限元建模
7. Plane hybrid stress elements for 3D analysis of moderately thick solids subjected to loading symmetric to midsurface [O] . Xiao Q.Z., Dhanasekar M. 2007

机译：平面混合应力单元，用于对中等厚度的固体进行3D分析，对称于中表面载荷
8. Sasl- a Finite Element Code for the Static Analysis of Axisymmetric and Plane Solids Subjected to Axisymmetric and Plane Loadings. [R] . callabresi, m. l. heidelberg jr, s. t. 1973

机译：sasl-轴对称和平面载荷下轴对称和平面固体静力分析的有限元程序。

Plane hybrid stress elements for 3D analysis of moderately thick solids subjected to loading symmetric to midsurface

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