有限元模拟与MSC.AutoForge软件(双语课教材) / 科技英语丛书
¥26.00定价
作者: 李胜祗
出版时间:2012
出版社:中国科学技术大学出版社
- 中国科学技术大学出版社
- 9787312029660
- 29369
- 47157662-9
- 平装
- 16开
- 2012
- 理学
- 数学
- O241.82
- 材料类
- 本科 研究生(硕士、EMBA、MBA、MPA、博士)
内容简介
李胜胝编著的《有限元方法模拟与toForge软件(理工科核心课程双语规划教材普通高等学校十一五省级规划教材)》适用对象为材料成型及控制工程专业本科生以及无有限单元法学习经历的其他专业学生。内容包含两部分:第一部分介绍有限单元法(FEM)。这部分内容通过对一些最简单的力学问题的求解引入有限元法的基本概念,继而顺序介绍常用的1—D单元、2—D单元和3—D单元等,并讨论它们在结构分析中的应用。第二部分介绍非线性分析软件MSL.AutoFore的功能和用法以及如何用AutoForge分析典型金属塑性成型过程。《有限元方法模拟与toForge软件(理工科核心课程双语规划教材普通高等学校十一五省级规划教材)》有针对性地设计了一个综合实验(钢板轧制过程模拟),目的是让学生在AutoForge环境下经历完整的操作过程,熟悉前处理(建模)、求解和后处理步骤及参数设置,为日后运用其他类似软件分析工程实际问题打下基础。
目录
preface
chapter 1 overview
1.1 where this material fits
1.2 what does a finite element look like
1.3 the fem analysis process
1.4 interpretations of the finite element method
1.5 historical sketch and bibliography
1.6 review of matrix algebra
1.7 spring element
chapter 2 bar and beam elements
2.1 linear static analysis
2.2 bar element
2.3 beam element
chapter 3 two-dimensional problems
3.1 review of the basic theory
3.2 finite elements for 2-d problems
chapter 4 fe modeling and solution techniques
4.1 symmetry
4.2 substructures (superelements)
4.3 equation solving
4.4 nature of finite element solutions
4.5 convergence of fe solutions
chapter 5 plate and shell elements
5.1 plate theory
5.2 thin plate theory (kirchhoff plate theory)
5.3 thick plate theory (mindlin plate theory)
5.4 plate elements
5.5 shells and shell elements
chapter 6 solid elements for 3-d problems
6.1 3-d elasticity theory
6.2 finite element formulation
6.3 typical 3-d solid elements
chapter 7 thermal analysis
7.1 temperature field
7.2 thermal stress analysis
chapter 8 msc. autoforge--an fe software
8.1 introduction
8.2 mechanics of msc. autoforge
8.3 background information
8.4 cylinder compression--a sample session
chapter 9 guide for a complex laboratory
9.1 background parameters and requirements
9.2 operation steps
further reading
chapter 1 overview
1.1 where this material fits
1.2 what does a finite element look like
1.3 the fem analysis process
1.4 interpretations of the finite element method
1.5 historical sketch and bibliography
1.6 review of matrix algebra
1.7 spring element
chapter 2 bar and beam elements
2.1 linear static analysis
2.2 bar element
2.3 beam element
chapter 3 two-dimensional problems
3.1 review of the basic theory
3.2 finite elements for 2-d problems
chapter 4 fe modeling and solution techniques
4.1 symmetry
4.2 substructures (superelements)
4.3 equation solving
4.4 nature of finite element solutions
4.5 convergence of fe solutions
chapter 5 plate and shell elements
5.1 plate theory
5.2 thin plate theory (kirchhoff plate theory)
5.3 thick plate theory (mindlin plate theory)
5.4 plate elements
5.5 shells and shell elements
chapter 6 solid elements for 3-d problems
6.1 3-d elasticity theory
6.2 finite element formulation
6.3 typical 3-d solid elements
chapter 7 thermal analysis
7.1 temperature field
7.2 thermal stress analysis
chapter 8 msc. autoforge--an fe software
8.1 introduction
8.2 mechanics of msc. autoforge
8.3 background information
8.4 cylinder compression--a sample session
chapter 9 guide for a complex laboratory
9.1 background parameters and requirements
9.2 operation steps
further reading
