No Boundaries ANSYS热分析指南 ri2 OK (4) Main Menu>Solution>-Loads->Apply>-Thermal->Convection>On Nodes, it# Pick All 在 Film coefficient框中输入-2,在 Bulk temperature框中输入100,OK (5)Utility Menu> Select> Everything (6) Utility Menu> Plot Ctrl> Symbols在 Show pres and convect as菜单中选择Arow,OK (7)Utility Menu>Plot>Nodes 18、恢复工作平面及坐标系统 1) Utility Menu>Work Plane>Change Active CS to>Global Cartesian (2)Utility Menu> WorkPlane>Align WP with>Global Cartesian 19、设定载荷步选项 Main Menu> Solution>-Load Step Options->Time/Frequenc> Time and Substeps, tE Number of substeps框中输入50,设置 Automatic time stepping为On; 20、求解 Main menu> Solution>- Solve> Current ls 21、显示温度分布彩色云图: Main Menu>General Postproc> Plot Results>- Contour Plot-> Nodal Solu,选择 Temperature TEMP。 《 ANSYS Ver ification manual》中关于稳态热分析的实例: VM58 Centerline temperature of a heat generating wire VM92 Insulted wall temperature Temperature dependent conductivity VM95 Heat transfer from a cooling spine VM96 Temperature distribution in a short solid cylinder VM97 Temperature distribution along a straight fin VM98 Temperature distribution along a tapered fin Temperature distribution in a trapezoidal fin VM100 Heat conductivity across a chimney section VIOL Temperature distribution in a short solid cylinder VMIO Cylinder with temperature dependent conductivity VM103 Thin plate with a central heat soure VMIOS Heat generation coil with temperature dependent conductivity VM108 Temperature gradient across a solid cylinde VAlls Centerline temperature of a heat generating wire VMI Solid cylinder with harmonic temperature load VM161 Heat flow from a insulated pipe VM162 Cooling of a circular fin of rectangular profile VM193 Adaptive analysis of two-dimensional heat transfer withNo Boundaries ANSYS热分析指南 —————————————————————————————————————————————— ri2,OK； (4)Main Menu>Solution>-Loads->Apply>-Thermal->Convection>On Nodes,选择 Pick All, 在 Film coefficient 框中输入-2,在 Bulk temperature 框中输入 100,OK; (5)Utility Menu>Select>Everything； (6)Utility Menu>PlotCtrls>Symbols,在 Show pres and convect as 菜单中选择 Arrow, OK; (7)Utility Menu>Plot>Nodes； 18、恢复工作平面及坐标系统 (1)Utility Menu>WorkPlane>Change Active CS to>Global Cartesian； (2)Utility Menu>WorkPlane>Align WP with>Global Cartesian； 19、设定载荷步选项: Main Menu>Solution>-Load Step Options->Time/Frequenc>Time and Substeps,在 Number of substeps 框中输入 50,设置 Automatic time stepping 为 On； 20、求解:Main Menu>Solution>-Solve->Current LS 21、显示温度分布彩色云图 : Main Menu>General Postproc>Plot Results>-Contour Plot->Nodal Solu,选择 Temperature TEMP。 《ANSYS Verification Manual》中关于稳态热分析的实例： VM58 Centerline temperature of a heat generating wire VM92 Insulted wall temperature VM93 Temperature dependent conductivity VM94 Heat generating plate VM95 Heat transfer from a cooling spine VM96 Temperature distribution in a short solid cylinder VM97 Temperature distribution along a straight fin VM98 Temperature distribution along a tapered fin VM99 Temperature distribution in a trapezoidal fin VM100 Heat conductivity across a chimney section VM101 Temperature distribution in a short solid cylinder VM102 Cylinder with temperature dependent conductivity VM103 Thin plate with a central heat source VM105 Heat generation coil with temperature dependent conductivity VM108 Temperature gradient across a solid cylinder VM118 Centerline temperature of a heat generating wire VM160 Solid cylinder with harmonic temperature load VM161 Heat flow from a insulated pipe VM162 Cooling of a circular fin of rectangular profile VM193 Adaptive analysis of two-dimensional heat transfer with