给出了网格划分方法及其总体矩阵的安装方法;
The mesh method and the total matrix assembling from local matrices were given in detail.
本文系统地介绍了逆向建模和有限元网格划分方法。
A converse modeling and Finite Element grid division method is systematically introduced in this paper.
混合网格划分方法可以适用于所有具有类似几何特征的模型。
MIXED mesh method can be used all model which has similar features.
简要介绍低比速离心泵特点,阐述计算的控制方程和叶轮通道网格划分方法。
The characteristics of low specific speed centrifugal pump are introduced, and the grid generation method for impeller passageway and the governing equations of calculation are also expatiated.
本文对已发表的有限元网格划分方法进行了综述,并对其进行了分类和优缺点分析。
The published mesh generation methods are reviewed. The methods are classified and their advantages and disadvantages are analysed.
对几种三角网格和四边形网格划分方法进行了较为详细的描述;并分析了方法的优缺点。
Some typical algorithms in triangular meshes and quadrilateral meshes are described in detail, and the advantage and disadvantage of the algorithms were analyzed.
利用Z曲线聚类和降维特性,本文给出网格划分方法、搜索区域分解过程,提出一种高维空间范围查询算法。
Based on Z curve, the paper presents a method of grid partition, a procedure of partitioning search region, and a high-dimensional spatial range query algorithm.
该方法解决了由CAD模型导入有限元分析软件时的数据丢失问题,网格划分方法保证了高质量网格模型的建立。
Data loss problem is resolved by this method in the process of CAD model is transferred to the finite element analysis software. The meshing method guarantees high quality grid model.
首先,将二维梁振动理论与三维船体湿表面网格划分方法相结合,提出了一种适用于三维水弹性分析的浮体湿表面网格划分方法。
Firstly, a new mesh generation method for 3-d hydro-elastic analysis is proposed with the combination of 2-d Timoshenko beam theory and 3-d wetted surface mesh generation method.
文章重点论证和提出了影响因素筛选、多边形网格单元划分的原则及预测精度评价的原理方法。
The paper was emphasized to demonstrate and present influencing factors sifting method, principles to divide polygon mesh units and to check predicted exactitude evaluation.
详细介绍了网格划分的思路及实现方法,并将网格自动生成模块集成在绘图平台中。
Then, a grid generation method and its implementation are introduced in detail, and the grid auto generation module is integrated in the drawing platform.
本文采用大单元内划分小网格的方法判断塑性区范围。
In this paper, a method dividing a big element into smaller meshes is adopted to judge the ranges of plastic zones.
应用计算机辅助设计和有限元网格划分的技巧和方法建立有限元模型,有效解决车体结构复杂和尺寸庞大的问题。
With modern CAD method and smart skill of making mesh used, finite element (FE) model is established and the problem of complicated structure and large dimension is solved.
应用计算机辅助设计和有限元网格划分的技巧和方法建立有限元模型,有效地解决矿用汽车货箱结构和尺寸庞大的问题。
With modern CAD method and smart skill of making mesh used, finite element(FE) model is established and the problem of structure of heavy truck body and large dimension are solved.
文中对不同凸缘圆角对极料优化形状的影响作了计算,讨论了在保证边界轮廓位置不变的条件下网格划分的方法。
The influence of different flange corner radii on the optimized blank contour is analyzed and a remeshing method which can guarantee the original boundary position unchanged is discussed.
最后,运用简缩积分单元对计算模型进行网格划分,采用显式积分方法完成计算。
Finally, the grid division of the computational model is completed using the reduced integral unit, and the explicit integral is introduced to complete the calculation.
传统的基于网格的数据流聚类算法采用固定划分网格的方法,虽然算法的处理速度较快,但是聚类准确性较低。
A kind of traditional data cluster algorithm based on grid used the method of the fixed network division, with its faster processing but low accuracy.
应用计算机辅助设计和有限元网格划分的技巧和方法建立有限元模型,有效的解决矿用汽车货箱结构和尺寸庞大的问题。
The problem of a too large size of the mine truck's body structure was solved by a finite element model established by using CAS and FE grid division methods.
方法:根据人体下颌骨的螺旋CT扫描图像,利用三维重建、图像处理和网格划分技术,建立人体下颌骨的三维有限元模型。
Methods: a Finite Element Model of human mandible is developed from ct scan images by the technologies of three-dimensional reconstruction, image processing and meshing.
三角剖分是有限元网格划分的重要工具之一。本文将这一方法应用于装配图的消隐之中,并介绍其原理及实现步骤。
Triangulation is an important way of finite element mesh generation. In this paper, this way is introduced into hiding assembly drawing, the relating theory and steps are also discussed.
同时,给出了网格划分的方法和时间步长的确定方法。
At the same time, has given the grid division method and the time step definite method.
研究了用有限元法对复杂机械结构进行强度分析的方法和步骤,对复杂机械结构的建模方法和网格划分进行了探讨。
The methods of analyzing the strength of complex mechanical structure were studied through the application of the finite element method, and the methods of building model and gridding were discussed.
现有的聚类分析算法可划分为:划分方法、层次的方法、基于密度的方法、基于网格的方法和基于模型的方法。
And the methods can be divided into portioning method, hierarchical method, density-based method, grid-based method and model-based method.
第四章首先阐述了三角形网格的划分方法,其中用到了二维等参元变换。
The fourth chapter introduces the method of triangle cell division, 2D equivalent parameter commutation is adopted.
通过对ANSYS模型建立和网格划分模块的系统分析,结合巷道支护经验,找出了对U 29型钢可缩性支架进行模拟计算的方法。
Through systematic analysis of ANSYS modelling and meshing module, incorporation roadway design experience, a simulation calculation method on U29-type steel flexible support was found out.
划分倾斜网格的方法有手工绘制和编程绘制两种。
The method of making leaning field grid cells consists of drawing by hand and drawing with the help of a computer program.
应用计算机辅助设计和有限元网格划分的技巧和方法建立有限元模型,有效的解决矿用汽车货箱结构和尺寸庞大的问题。
With modern CAD method and smart skill of making mesh used, finite element (FE) model is established and the problem of structure of heavy truck's body and large dimension is solved.
该方法已用于汽车覆盖件零件等复杂几何形状的有限元网格划分。
This approach has been applied to finite element mesh generation of complicated parts, for example, automobile panel with plastic forming.
本文提出了一种适合多分界面三维结构的有限网格自动划分方法,在网格划分的同时建立起三维模型。
An automatic mesh generation scheme is proposed, it suites to the 3-d structure with multi-surface, in the same time the 3-d model is constructed.
本文提出了一种适合多分界面三维结构的有限网格自动划分方法,在网格划分的同时建立起三维模型。
An automatic mesh generation scheme is proposed, it suites to the 3-d structure with multi-surface, in the same time the 3-d model is constructed.
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