A procedure of the method of reverberation ray matrix for the buckling analysis of a thin multi-span plate

A procedure of the method of reverberation ray matrix(MRRM) is developed to perform the buckling analysis of thin multi-span rectangular plates having internal line supports or stiffeners. A computation algorithm for the reverberation ray matrix in the MRRM is derived to determine the buckling loading. Specifically, the analytical solutions are presented for the buckling of the structure having two opposite simply-supported or clamped-supported edges with spans, while the constraint condition of...     

BEM for modal analysis of 3-D anisotropic structures

The boundary element method for the modal anlysis of free vibration for 3-D anisotropic structures using particular solutions has been developed. The complete polynomials of order two are used to construct the particular solutions for general anisotropic materials. The numerical results for 3-D free vibration analysis of an isotropic cantilever beam by the method presented is in good agreement with the results using the Ritz technique. For anisotropic materials, the numerical results calculated from the proposed method are in good agreement with the results from MSC.NASTRAN. Project supported by the National Natural Science Foundation of China (No. 19872011).     

带有全铰节点的三维杆系结构静力分析的回传波射矩阵法研究

推导出含有全铰节点的三维杆系结构的回传波射矩阵表达式,完善了具有任意连接和约束的空间杆系结构静力分析的回传波矩阵法.基于节点平衡方程和协调方程,推导出表达杆件近端位移和远端位移关系的传递分配矩阵及载荷源向量,并通过由对偶坐标系下近端位移和远端位移的关系获得结构的总体相位矩阵,再引入转列矩阵,进而推导出结构的回传波射矩阵,在此基础上求解以杆端位移为基本未知量的线性方程组,最终得到精确确定所有杆件的杆端位移及杆端内力的矩阵列式.给出了空间杆系结构算例分析,与有限元结果比较,验证了回传波射矩阵法的计算精度.     

杆件修改与去除及内力变更时杆系结构分析的矩阵力法

采用矩阵力法，引入假想初位移的概念，用原始结构在外荷载与某一组假想初位移联合作用下的效应，来替代部分杆件被修改、去除及内力变更的新结构胡该外荷载作用下的效应。这种方法的计算可以仅涉及被修改、去除及内力变更的那部分杆件，并且利用原始结构的计算成果来分析新结构，无须按常规方法从头开始再计算一篇。在许多情况下，这种做法的工作量有可能成倍地甚至几十倍地大幅度减少。文中附有算例，计算结果表明本文提出的简捷计算方法是正确的、可靠的和有效的。     

高层建筑结构抗震弹塑性简化方法的研究及其应用

以地震反应谱理论为依据，建立了可以考虑多阶振型影响的高层建筑结构弹塑性静力分析方法。在此基础上发展了较简单且较为精确的高层建筑结构弹塑性地震反应计算方法。最后给出的算例论证了本文简化方法的可能性及可行性。     

Numerical analysis of bifurcation buckling for rotationally periodic structures under rotationally periodic loads

By considering the characteristics of deformation of rotationally periodic structures under rotationally periodic loads, the periodic structure is divided into some identical substructures in this study. The degrees-of-freedom (DOFs) of joint nodes between the neighboring substructures are classified as master and slave ones. The stress and strain conditions of the whole structure are obtained by solving the elastic static equations for only one substructure by introducing the displacement constraints between master and slave DOFs. The complex constraint method is used to get the bifurcation buckling load and mode for the whole rotationally periodic structure by solving the eigenvalue problem for only one substructure without introducing any additional approximation. The finite element (FE) formulation of shell element of relative degrees of freedom (SERDF) in the buckling analysis is derived. Different measures of tackling internal degrees of freedom for different kinds of buckling problems and different stages of numerical analysis are presented. Some numerical examples are given to illustrate the high efficiency and validity of this method.