有限元分析报告上机书
目 录
实验一 车轮的实体建模与网格划分·············································3
实验二 自下向上实体建模(建立连杆模型)·····································6
实验三 平板结构的强度分析····················································10
实验四 轴承座的有限元建模与强度分析········································13
实验五 潜水艇的稳态热分析···················································19
实验六 管的热应力分析························································22
实验七 飞机机翼模型模态分析·················································25
实验八 质量弹簧系统谐响应分析··············································29
实验九 板-梁结构的瞬态动力学分析···········································33
实验十 管道中流场的流体动力学分析·········································37
实验一 车轮的实体建模与网格划分
一、实验目的:创建实体的方法,工作平面的平移及旋转,建立局部坐标系,模型的映射,拷贝,布尔运算(相减、粘接、搭接,基本网格划分。)
二、问题描述:车轮为沿轴向具有循环对称的特性,基本扇区为45度,旋转8份即可得到整个模型。
车轮内部A点所在线至圆心处为5,四个倒角处圆角半径0.25。
三、具体步骤:
建立切面模型
建立三个矩形
Main Menu: Preprocessor -> -Modeling-Create -> -Areas->-Rectangle -> By Dimensions
依次输入x1=5, x2=5.5, y1=0, y2=5单击Apply
再输入 x1=5.5, x2=7.5, y1=1.5, y2=2.25单击Apply
最后输入x1=7.5, x2=8.0, y1=0.5, y2=3.75单击OK
将三个矩形加在一起
Main Menu: Preprocessor ->Modeling-Operate >Booleans-Add >Areas单击Pick All
打开线编号
Utility Menu >PlotCtrls > Numbering 线编号为ON,并选择/NUM为Colors & Numbers
分别对线14与7;7与16;5与13;5与15进行倒角,倒角半径为0.25
Main Menu: Preprocessor ->Modeling-Create >Lines-Line Fillet
拾取线14与7,单击Apply,输入圆角半径0.25,单击Apply;
拾取线7与16,单击Apply,输入圆角半径0.25,单击Apply;
拾取线5与13,单击Apply,输入圆角半径0.25,单击Apply;
拾取线5与15,单击Apply,输入圆角半径0.25,单击OK;
打开关键点编号
Utility Menu >PlotCtrls > Numbering 关键点编号为ON,并选择/NUM为Colors & Numbers
通过三点画圆弧
Main Menu>Preprocessor>Create>Lines>Arcs>By End KPs & Rad
拾取12及11点,单击Apply,再拾取10点,单击Apply,输入圆弧半径0.4, 单击Apply;
拾取9及10点,单击Apply,再拾取11点,单击Apply,输入圆弧半径0.4, 单击OK
由线生成面
Main Menu: Preprocessor -> -Modeling-Create -> -Areas-Arbitrary >By Lines
拾取线6、8、2单击Apply
拾取线20、19、21单击Apply
拾取线22、24、23单击Apply
拾取线17、18、12单击Apply
拾取线11、25单击Apply
拾取线9、26单击OK
将所以的面加在一起
Main Menu: Preprocessor ->Modeling-Operate >Booleans-Add >Areas单击Pick All
2.定义两个关键点(用来定义旋转轴)
Main M