《ansys分析实例3》.doc

Ansys上机操作（第3次） Ansys实体建模: 由底向上三维实体(连杆)分析实例操作步骤 ?用由底向上建模技术，练习建立汽车连杆几何模型。 1.指定的工作目录，用“c-rod” 作为作业名，进入ANSYS. 2. 创建两个圆形面: –Main Menu Preprocessor -Modeling- Create -Areas- Circle By Dimensions ... ?输入RAD1 = 1.4 ?输入RAD2 = 1 ?输入THETA1 = 0 ?输入THETA2 = 180, 然后选择[Apply] ?输入THETA1 = 45, 然后选择[OK] –或用命令: /PREP7 PCIRC,1.4,1,0,180 PCIRC,1.4,1,45,180 3. 打开 面号: –Utility Menu PlotCtrls Numbering ... ?设置面号为 “on”, 然后选择[OK] –或用命令: /PNUM,AREA,1 APLOT 4. 创建两个矩形面: –Main Menu Preprocessor -Modeling- Create -Areas- Rectangle By Dimensions ... ?输入X1 = -0.3, X2 = 0.3, Y1 = 1.2, Y2 = 1.8, 然后选择[Apply] ?输入X1 = -1.8, X2 = -1.2, Y1 = 0, Y2 = 0.3, 然后选择[OK] –或用命令: RECTNG,-0.3,0.3,1.2,1.8 RECTNG,-1.8,-1.2,0,0.3 5. 平移工作面位置(X=6.5): –Utility Menu WorkPlane Offset WP to XYZ Locations + ?回车后在输入窗口输入 6.5 ， [OK] –或用命令: WPAVE,6.5 6. 设置工作平面所在的坐标系为激活坐标系: –Utility Menu WorkPlane Change Active CS to Working Plane –或用命令: CSYS,4 7.再创建两个圆形面: –Main Menu Preprocessor -Modeling- Create -Areas- Circle By Dimensions ... ?输入RAD1 = 0.7 ?输入RAD2 = 0.4 ?输入THETA1 = 0 ?输入THETA2 = 180, 然后选择[Apply] ?输入THETA2 = 135, 然后选择[OK] –或用命令: PCIRC,0.7,0.4,0,180 PCIRC,0.7,0.4,0,135 8. 在每一组面上分别进行布尔操作: –Main Menu Preprocessor -Modeling- Operate -Booleans- Overlap Areas + ?先选择左边的一组面, 然后选择[Apply] ?再选择右边的一组面, 然后选择[OK] –或用命令: AOVLAP,1,2,3,4 AOVLAP,5,6 9. 激活总体笛卡尔坐标系: –Utility Menu WorkPlane Change Active CS to Global Cartesian –或用命令: CSYS,0 10. 定义四个新的关键点: –Main Menu Preprocessor -Modeling- Create Keypoints In Active CS … ?第一关键点, X=2.5, Y=0.5, 然后选择[Apply] ?第二关键点, X=3.25, Y=0.4, 然后选择[Apply] ?第三关键点, X=4, Y=0.33, 然后选择[Apply] ?第四关键点, X=4.75, Y=0.28, 然后选择[OK] –或用命令: K, ,2.5,0.5 K, ,3.25,0.4 K, ,4.0,0.33 K, ,4.75,0.28 11. 激活总体柱坐标系: –Utility Menu WorkPlane Change Active CS to Global Cylindrical –或用命令: CSYS,1 12. 创建一条线（由一系列关键点拟合一条样条曲线）: –Main Menu Preprocessor -Modeling- Create -Lines- Splines With Options Spline thru KPs + ?顺序拾取如图形窗口所示的六个关键点, 然后选择[OK] ?输入XV1 = 1 (总体柱坐标系，关键点1处的半径) ?YV1 = 135 (总体柱坐标系，关键点1处的角度) ?XV6