THE METHOD OF THE RECIPROCAL THEOREM OF FORCED VIBRATION FOR THE ELASTIC THIN RECTANGULAR PLATES(Ⅰ)—RECTANGULAR PLATES WITH FOUR CLAMPED EDGES AND WITH THREE CLAMPED EDGES

In this paper the method of the reciprocal theorem (MRT) is extended to solve the steady state responses of rectangular plater under harmonic disturbing forces. A series of the closed solutions of rectangular plates with various boundary conditions are given and the tables and figures which have practical value are provided.MRT is a simple, convenient and general method for solving the steady stale responses of rectangular plates under various harmonic disturbing forces.The paper contains three parts: (I) rectangular plates with four damped edges and with three clamped edges; (II) rectangular plates with two adjacent clamped edges; (III) cantilever plates.We arc going to publish them one after another.

RECIPROCAL THEOREM METHOD FOR THE FORCED VIBRATIONOF ELASTIC THICK RECTANGULAR PLATES

In this paper, reciprocal theorem method (RTM) is generalized to solve the problems for the forced vibration of thick rectangular plates based on the Reissner's theory. The paper derives the dynamic basic solution of thick rectangular; and the exact analytical solution of the steady-state responses of thick rectangular plates with three clamped edges and one free edge under harmonic uniformly distributed disturbing forces is found by RTM. It is regarded as a simple, convenient and general method for calculating the steady-stare responses of forced vibration of thick rectangular plates.

THE METHOD OF THE RECIPROCAL THEOREM OF FORCED VIBRATION FOR THE ELASTIC THIN RECTANGULAR PLATES(Ⅲ)--CANTILEVER RECTANGULAR PLATES

In this paper,applying the method of the reciprocal theorem,we give the stationary solutions of the forced vibration of cantilever rectangular plates under uniformly distributed harmonic load and concentrated harmonic load acting at any point of the plates,the figures and tables of number value of bending moment and the deflection amplitudes as well.

BENDING OF RECTANGULAR PLATE WITH EACH EDGES ARBITRARY A POINT SUPPORTED UNDER A CONCENTRATED LOAD

The reciprocal theorem was applied to solve the bending of the rectangular plates with each edges arbitrary a point supported under a concentrated load, the exact solutions and computation example are given.

BENDING OF CORNER-SUPPORTED RECTANGULAR PLATE UNDER CONCENTRATED LOAD

In this paper the solution for the bending of corner-supported rectangular plate under concentrated load at any point (α/2, η) of the middle line of the plate is given by means of a conception called modified simply supported edges and the method of superposition. Some numerical example is presented. The solution obtained by this method checks very nicely with what was obtained by G.T. Shih[3] by means of spline finite element method when η=d/2. This shows that this method of solution is satisfactory.

THE BENDING OF SET SQUARES WITH ONE FREE OBLIQUE EDGE UNDER A CONCENTRATED LOAD

In the paper, the reciprocal theorem is applied to research on the bending of set square with one free oblique edge and two clamped edges under a concentrated load acting at any point. This method is simpler and general.

求解厚矩形板弯曲问题的功的互等定理法

在本文中，功的互等定理法（ＲＴＭ）被推广于求解基于Ｒｅｉｓｓｎｅｒ理论的厚矩形板弯曲问题。首先，本文绘出了厚矩形板弯曲的基本解；其次，给出了三边固定一边自由在均布载荷作用下厚矩形板弯曲的精确解析解；最后，我们分析了本文解的数值结果。

四角点支承厚矩形板弯曲的功的互等定理法求解

本文应用功的互等定理法求解了在均布载荷作用下四角点支承厚矩形板的弯曲问题．首次给出了该问题的精确解析解及其可供工程实际参考的数值图表．

弹性矩形薄板受迫振动的功的互等定理法(Ⅲ)—悬臂矩形板

本文应用功的互等定理法给出了在均布谐载和在任意点受集中谐载作用下悬臂矩形板受迫振动的稳态解,并给出了有关弯矩和挠度幅值的图表.

弹性地基上四边自由厚矩形板的弯曲问题解

Reissner厚板理论基础上,利用功的互等定理法和迭加法求解了集中载荷作用下,弹性地基上四边自由厚矩形板的弯曲问题,得到了完全一致的解析解.可见,功的互等定理法更简便易行.

应用混合变量余能原理求解不同载荷作用下四边简支矩形板的弯曲

由功的互等定理导出了弯曲矩形板混合变量的总余能,应用混合变量余能原理求解四边简支矩形板弯曲问题,给出了四边简支矩形板的混合变量余能表达式,求解了不同载荷作用下四边简支矩形板的弯曲问题,并将计算的不同载荷作用下的挠度和弯矩值与ANSYS有限元的计算值比较,给出了一种求解四边简支矩形板的新方法。

弹性厚矩形板受迫振动的功的互等定理法

本文将功的互等定理法（ＲＴＭ）推广应用于求解基于Ｒｅｉｓｓｎｅｒ理论的厚矩形板受迫振动问题·本文导出了厚矩形板动力基本解；给出了三边固定一边自由厚矩形板在均布简谐干挠力作用下稳态响应的精确解析解·这是计算厚矩形板受振动稳态响应的一个简便通用的方法·

粘弹性地基上无限大板的瞬态响应

首先用弹性动力学Ｂｅｔｔｉ－Ｒａｙｌｅｉｇｈ互易定理证明并建立了处理运动负荷作用下结构动力响应的广义Ｄｕｈａｍｅｌ积分表示式，把运动荷载问题转化为求解位移脉冲响应函数，然后利用Ｌａｐｌａｃｅ变换和Ｈａｎｋｅｌ变换求得了板的竖向位移在变换域中的解；最后通过积分反演。

功的互等定理在四边固定厚矩形板弯曲问题中的应用

以Reissuer理论为基础，利用功的互等定理得到了四边固定厚矩形板在均布载荷作用下弯曲问题的解析解．从所得结果来看，该法简单实用，精度较高．

三边固定一边自由厚矩形板受迫振动的稳态解

利用功的互等定理法，以Rissner理论为基础，求解了三边固定一边自由的矩形厚板以生受迫振动时的稳态解，计算结果表明，该法具有较高的精度。

携带集中质量的矩形薄板面外非线性动力失稳研究

对于面内对边周期荷载作用下携带集中质量的矩形薄板,当周期荷载的激振频率在板的两倍自振频率附近时,板发生面外参数共振失稳。该文基于薄板大挠度理论,运用伽辽金法推导出携带集中质量的矩形薄板非线性动力失稳的Mathieu-Hill方程,进而求解得到板发生面外参数共振失稳时周期荷载的临界激振频率域以及非线性动力失稳曲线。运用有限元软件进行瞬态分析得到不同激振幅值作用下板发生面外参数共振失稳时周期荷载的最小与最大临界激振频率值,通过与解析解进行对比,验证了计算结果的正确性。研究结果表明:随着集中质量的增加,参数共振失稳的临界激振频率及其不稳定域的宽度逐渐减小,不稳定域的位置逐渐向低激振频率的方向移动;随着集中质量的增加,面外参数共振失稳域的临界激励幅值逐渐增加;随着集中质量所处位置的模态位移增加,不稳定域的宽度减小。

矩形夹层板稳定性分析

本文在Reissner理论基础上,应用功的互等定理推导了夹层矩形板稳定问题的基本解,在已推导出的夹层板基本解的基础上,利用功的互等法求解了两对边固定一边简支一边自由、两邻边简支另两邻边自由且角点支承、两邻边简支另两邻边自由且角点悬空三种不同边界条件下夹层板的稳定问题,给出了挠曲面方程及其对应的执行方程;进行了数值计算,并与有限元结果进行对照分析.结果表明:本文方法求解过程更简单,提供了一种求解夹层板稳定问题的新方法,计算结果对解决工程实际问题具有一定的参考价值.

功的互等法解复杂边界条件下厚矩形板的弯曲

推广应用功的互等法(RTM)求解基于Reissner理论的厚矩形板的弯曲问题,给出了二邻边简支一边固定一边自由厚矩形板在均布载荷作用下弯曲的精确解析解,并分析了解的数值结果。

在—集中载荷作用下斜边自由的三角形板弯曲

本文应用功的互等定理研究了在—集中载荷作用下斜边自由两边固定的三角形板弯曲问题．该法简单、通用．

应用功的互等定理求解四角点支承板的弯曲问题

近年来,国内混凝土平板无梁楼盖体系坍塌事故频发,由此引发对以混凝土平板无梁楼盖体系为代表的四角点支承矩形板弯曲问题的思考.本文采用功的互等定理对四角点支承矩形板的弯曲问题进行求解,分别推导四角点支承矩形板在均布荷载、均布力矩和线性分布荷载作用下的挠曲面方程和执行方程,然后将不同载荷作用下所求得的挠度值与Ansys有限元模拟值进行对比分析.结果表明:该方法求解四角点支承矩形板弯曲问题通用有效;为以无梁楼盖为代表的四角点支承矩形板弯曲问题的求解提供了一种新方法,具有相当的实用价值.