1)bending problem弯曲问题
1.The Lévy solution to the bending problem of plates with their edges strengthened by beams and its convergence;具有边梁加固的板弯曲问题的Lévy解及其收敛性
2.Natural boundary element method for plane problem and bending problem of the elastic circular plate;圆板平面问题与弯曲问题的自然边界元法
3.Based on the theory for solving bending problem of thin elastic rectangular plates proposed by the author in reference[1],a new technique for solving bending problem of two-way continuously supported plates is given in the present paper.在于文 [1]中提出的求解弹性矩形薄板弯曲问题解法的基础上 ,建议一个求解双向连续板弯曲问题的解析分析方法。
英文短句/例句
1.ANALYTIC SOLUTION OF BENDING SURFACE PROBLEM OF FAN-SHAPED PLATE扇形薄板弯曲问题挠曲面的解析解
2.Solution to the Large Deflection Problem of Thin Plates by BEM Method用边界元法求解薄板大挠度弯曲问题
3.Yield-line Theory Application and Studying of Thin Plate Curve Problem;薄板弯曲问题的塑性铰线法应用研究
4.Symplectic System Based Analytic Solutions for Reissner Plate Bending基于辛体系的Reissner板弯曲问题的分析解
5.The Bending Analysis of Thin Plates for Using Discrete Least-Squares Method离散型最小二乘法分析薄板弯曲问题
6.Bending Analysis for Moderately Thick Plates by Mesh Free Local Radial Point Interpolation Method用无网格LRPIM分析中厚板弯曲问题
7.DQ Research on the Thickness Change of Rectangular Thin Steel Plate's Curving变厚度矩形薄板弯曲问题的DQ法研究
8.THE U-TRANSFORMATION-FINITE ELEMENT METHOD FOR RECTANGULAR THIN-PLATE BENDING PROBLEMS矩形薄板弯曲问题的U变换-有限元法
9.The Effect of transverse shear deformation on the bending of a circular plate of variable thickness考虑剪切影响的变厚度圆板的弯曲问题
10.KANTROVICH SOEUTION FOR THE PROBLEM OF BENDING OF SKEW ANGULAR PLATTE AND PLATE OF ISOSCELES TRAPEZOID斜角板与等腰梯形板弯曲问题的康托洛维奇法
11.Research on RKPM Utilized in Plate Bending;再生核粒子法及其在平板弯曲问题中的应用
12.The Research about the Non-Linear Bending Question of Circular Sandwich Plates by Method of Weighted Residuals;夹层圆板非线性弯曲问题的加权残值解法
13.Symplectic Solutions of Annular Sector Plate Bended with Circumferential Coordinate Treated as Time;环扇形薄板弯曲问题环向辛体系的研究
14.Vibration Analysis of Kirchhoff Plates by the Nonconforming Element Method with Mass-Lumping;薄板弯曲问题的集中质量非协调有限元模拟
15.Boundary Element Method for Thin Plates Bending Problem with Crack;边界元在含裂缝薄板弯曲问题中的应用
16.A System of New Boundary Integral Equations of Thin Plate Bending;薄板小挠度弯曲问题的新的边界积分方程
17.Solution to Bending of Rectangular Thin Plates Simple Supported on Four Edges on Pasternak Model of Foundation;Pasternak地基上四边简支矩形薄板的弯曲问题
18.The Exact Solution to Bending of Transversely Isotropic Functionally Graded Circular Plate横观各向同性功能梯度圆板弯曲问题的精确解
相关短句/例句
bending problems弯曲问题
1.A Laplace transform finite element method for solving the dynamic coupled ther-moelasic bending problems of thin plates was proposed based on the variational principle of theProbems.以薄板动力热耦合弯曲问题的变分原理为基础,提出了一种解决该问题的拉普拉斯变换有限无法。
2.In this paper, in accordance with Biacob plate-bending theory, analytical solutions of bending problems of rectangular plates are presented.本文根据符拉索夫平板理论,提出了矩形板弯曲问题的解答格式,应用本文中的(8)和(9)式,可求解通常边界条件下,承受横向均布力q_0以及承受横向均布力和板边法向弯矩等组合荷载共同作用下的矩形中厚板的弯曲问题,而且使这类问题的解析解规律化。
3.Two kinds of general solutions to the displacement equation for the bending problems of Vlasov plates are given in this paper.针对符拉索夫板弯曲问题的基本方程,给出了两个形式简洁的通解定理。
3)plate bending problem板弯曲问题
1.The boundary value problem of plate bending problem on two_parameter foundation was discussed. 讨论了双参数地基上薄板弯曲问题· 利用两组高阶基本解序列,即调和及重调和基本解序列,采用多重替换方法(MRM方法),得到了板弯曲问题的MRM边界积分方程· 证明了该方程与边值问题的常规边界积分方程是一致的· 因此由常规边界积分方程的误差估计即可得到板弯曲问题MRM方法的收敛性分析· 此外该方法还可推广到具多组高阶基本解序列的情形·
4)bending problem of plates板的弯曲问题
5)thin plate bending theory薄板弯曲问题
1.An equivalent boundary integral equation (EBIE) with direct variables for the thin plate bending theory, which is equivalent to the original boundary value problem, is established in this paper.建立平面弹性薄板弯曲问题理论中具有直接变量的等价边界积分方程。
6)thermal bending problem of plate板热弯曲问题
延伸阅读
弯曲工艺的概念及弯曲件1.弯曲工艺:是根据零件形状的需要,通过模具和压力机把毛坯弯成一定角度,一定形状工件的冲压工艺方法。 2.弯曲成形工艺在工业生产中的应用:应用相当广泛,如汽车上很多履盖件,小汽车的柜架构件,摩托车上把柄,脚支架,单车上的支架构件,把柄,小的如门扣,夹子(铁夹)等。 弯曲的基本原理:以V形板料弯曲件的弯曲变形为例进行说明。其过程为: 1. 凸模运动接触板料(毛坯)由于凸,凹模不同的接触点力作用而产生弯矩, 在弯矩作用下发生弹性变形,产生弯曲。 2. 随着凸模继续下行,毛坯与凹模表面逐渐靠近接触,使弯曲半径及弯曲力臂均随之减少,毛坯与凹模接触点由凹模两肩移到凹模两斜面上。(塑变开始阶段)。 3.随着凸模的继续下行,毛坯两端接触凸模斜面开始弯曲。(回弯曲阶段)。 4.压平阶段,随着凸凹模间的间隙不断变小,板料在凸凹模间被压平。 5. 校正阶段,当行程终了,对板料进行校正,使其圆角直边与凸模全部贴合而成所需的形状。 弯曲变形的特点: 弯曲变形的特点是:板料在弯曲变形区内的曲率发生变化,即 弯 曲半径发生变化。从弯曲断面可划分为三个区:拉伸区、压缩区和中性层。
