An invariant eight‐node hybrid‐stress element for thin and thick multilayer laminated plates
暂无分享,去创建一个
[1] O. Orringer,et al. Alternate Hybrid-Stress Elements for Analysis of Multilayer Composite Plates , 1977 .
[2] Oscar Orringer,et al. A Multilayer, Traction-Free Edge, Quadrilateral, Warping Element for the Stress Analysis of Composite Plates and Shells. , 1979 .
[3] Robert L. Spilker,et al. Hybrid-stress eight-node elements for thin and thick multilayer laminated plates , 1982 .
[4] N. Pagano,et al. Exact Solutions for Composite Laminates in Cylindrical Bending , 1969 .
[5] Theodore H. H. Pian,et al. Linear Dynamic Analyses of Laminated Plates and Shells by the Hybrid-Stress Finite-Element Method. , 1973 .
[6] Robert L. Spilker,et al. A hybrid-stress quadratic serendipity displacement mindlin plate bending element , 1980 .
[7] Robert L. Spilker,et al. A hybrid-stress finite-element formulation for thick multilayer laminates , 1980 .
[8] Robert D. Cook,et al. Two hybrid elements for analysis of thick, thin and sandwich plates , 1972 .
[9] Robert L. Spilker,et al. Invariant 8‐node hybrid‐stress elements for thin and moderately thick plates , 1982 .
[10] P. Tong,et al. Finite Element Solutions for Laminated Thick Plates , 1972 .
[11] Robert L. Spilker,et al. A Serendipity cubic‐displacement hybrid‐stress element for thin and moderately thick plates , 1980 .
[12] Robert L. Spilker,et al. The hybrid‐stress model for thin plates , 1980 .