It is important, when creating an inspection report, that the items are ballooned in the correct order. Also numbering schemes can help quickly identify characteristics: Change the order of the characteristics. Define balloon sequences. Manually change a balloon number.
此單元涵蓋 3D PDF 範本編輯器。零組件包括:文字類型、BOM 表格、模型區域,以及 3D PDF 視圖縮圖標籤。 針對零件: 變更範本標誌。 將自訂屬性從「範本編輯器」對應至 SOLIDWORKS。 針對組合件: 將現有「主題」資料夾加入「發佈至 3D PDF」對話方塊。 發佈及使用 3D PDF 及 eDrawing 檔案。
Use the Edit Definition command to optimize a roughing operation to increase toolpath efficiency and reduce machine cycle time. Modify the optimization of a rough mill operation. Set optimization method to shortest path. Set start point options. Simulate the toolpath to examine results.
此單元說明 SOLIDWORKS MBD 概要。 其中涵蓋在 3D 中定義模型、擷取 3D 視圖,以及發佈 3D PDF 和 eDrawing 檔案等程序。 瞭解如何將產品及製造資訊 (PMI) 加入 3D 模型。 使用「複製排列特徵」工具產生集合的複製排列。 熟悉 3D PDF 範本編輯器。 如何發佈 3D PDF。 如何發佈 eDrawing 檔案。
Working with Large Assemblies can be a challenge, but with the proper tools and techniques they can be managed. Learn about what happens when you open an assembly, choosing the best assembly mode, the available assembly techniques and some helpful settings and tips.
Learn about SOLIDWORKS Product Data Management (PDM) to help you get your design data under control and substantially improve the way your teams manage and collaborate on product development.
Learn about how SOLIDWORKS Simulation can help you analyze the dynamic structural response of your parts or assemblies to the transient load or excitation. Review the basic functionality and available modules, understand the difference between static and dynamic responses of structures. Understand the transient time history and harmonic simulation modules.
Review the basic functionality of the SOLIDWORKS Nonlinear module. Show activation of SOLIDWORKS Simulation Add-In. Learn three basic nonlinear phenomena in engineering calculations. Review of control methods available in the module. Review of basic material models available in the module.
Review the difference between small displacement linear, and large displacement nonlinear analyses. Introduce the concept of time curves, and discuss basic options. Solve small displacement linear analysis to demonstrate inaccurate solution. Define a nonlinear simulation study. Use time curves to control variation of the nonlinear loading. Use fixed increment stepping, and autostepping stepping procedures to solve the nonlinear problem. Postprocess results of the nonlinear simulation. Compare results from nonlinear studies with various setup parameters.
Introduction to the force control and displacement control methods in nonlinear module. Experience and resolve solution instabilities when solving nonlinear problems. Define nonlinear study boundary conditions and loads. Stabilize force control method to arrive to a final solution. Solve the problem using the displacement control method. Adjust boundary conditions for the displacement control method. Compare nonlinear results from the force control, and the displacement control methods.
Introduction to the material nonlinearity, namely metal plasticity. Effect of mesh quality on the quality of the numerical stress results. Solve problem with linear small displacement solution and identify a need for the nonlinear solution due to high stress. Define nonlinear study boundary conditions and loads. Define nonlinear material model with von Mises plasticity. Use simplified bi-linear plasticity material model. Review the stress and displacement results at various times. Study effect of mesh quality on the quality of the stress results. Use the mesh sectioning feature to review stress distribution within the bodies.