SOLIDWORKS Simulation 제품군의 모든 모듈을 살펴봅니다. SOLIDWORKS Flow를 사용하여 열 전달 및 유체 유동을 해석합니다. Sustainability를 사용하여 설계가 환경에 미치는 영향을 최소화합니다. SOLIDWORKS Simulation을 사용하여 응력-변형 해석을 살펴봅니다. SOLIDWORKS Motion을 사용하여 강체 역학을 해석합니다. SOLIDWORKS Plastics를 사용하여 플라스틱 사출 파트의 채우기 패턴을 봅니다.
Understand the components of SOLIDWORKS PDM Standard, the role of each component, and how the components interact with each other. These components include: Microsoft® SQL Server® Express. SOLIDWORKS PDM Database Server. SOLIDWORKS PDM Archive Server. The three SOLIDWORKS PDM Client types.
Learn how to a create SOLIDWORKS PDM Standard vault and setup a local client view. Create and configure a SOLIDWORKS PDM Standard vault. Setup a local client view connection to the newly created vault.
Understand how to validate a newly created PDM vault by performing standard PDM operations. Add and share files and folders via the Windows Explorer vault view. Version a SOLIDWORKS part file and transition through a workflow to release.
Understand the steps to perform as complete backup of PDM. Use Microsoft® SQL Server® Management Studio to backup PDM vault databases. Use the SOLIDWORKS PDM Archive Server configuration tool to backup vault user credentials. Locate and backup the vaults file archives.
Understand how to install and configure the components of SOLIDWORKS PDM Standard. Install and configure Microsoft® SQL Server® Express. Install Microsoft® SQL Server® Management Studio. Install the SOLIDWORKS PDM Database Server. Install the SOLIDWORKS PDM Archive Server. Install the SOLIDWORKS PDM CAD Editor client.
This lesson contains exercises so you can improve your proficiency with Features and Parts before taking the Certified SOLIDWORKS Associate (CSWA) exam. There are 12 practice exercises for Features and Parts so this is the first of two lessons containing these exercises.
This lesson contains exercises so you can improve your proficiency with Features and Parts before taking the Certified SOLIDWORKS Associate (CSWA) exam. There are 12 practice exercises for Features and Parts so this is the second of two lessons containing these exercises.
This lesson contains exercises so you can improve your proficiency with Additional Tools before taking the Certified SOLIDWORKS Associate (CSWA) exam. The additional tools include reference geometry, configurations, making changes to a model, and more. There are 10 practice exercises for Additional Tools so this is the second of two lessons containing these exercises.
This lesson contains exercises so you can improve your proficiency with Additional Tools before taking the Certified SOLIDWORKS Associate (CSWA) exam. The additional tools include reference geometry, configurations, making changes to a model, and more. There are 10 practice exercises for Additional Tools so this is the second of two lessons containing these exercises.
Automate the conversion of imported part geometry into a SOLIDWORKS feature-based, parametric model. Open an imported data file in SOLIDWORKS. Use the Import Diagnostics tool to repair imported geometry. View the FeatureWorks options. Use the Automatic feature Recognition Mode. Map the features to the part model. Guide the Automatic Recognition Mode for the best results.
Control the conversion of imported part geometry into a SOLIDWORKS feature-based parametric model by converting specific features interactively. Interactively convert feature types. Convert features types that cannot be used with automated methods. Recognize multiple similar features at the same time. Re-recognize geometry and change it to a different type. Add patterns from the list of recognized features.
Use Volume features to recognize geometry that does not match any other feature type. The volume feature can be replaced with a standard SOLIDWORKS feature. Recognize volume features. Recognize boss and cut revolve features. Use the Up To Face option with cut extrudes. Replace volume features with standard cut features. Edit the mapped features.
Convert imported sheet metal part geometry into SOLIDWORKS feature-based, sheet metal, parametric models. Recognize common sheet metal features such as Base Flanges and Sketched Bends. Flatten the result to view the flat pattern. Use a hybrid approach combining the automatic and interactive methods.
Convert imported assembly and multibody geometry into SOLIDWORKS feature-based, parametric models. Recognize imported assembly geometry as multiple parts. Use Edit Feature to recognize only selected features from the part. Use child features to recognize multiple features with a single selection.
관리자와 설계자 등을 위한 어셈블리 구조 계획 도구인 SOLIDWORKS Treehouse의 사용자 인터페이스를 살펴봅니다. 사용자 인터페이스를 둘러보면서 SOLIDWORKS Treehouse 사용법을 살펴봅니다. 새 어셈블리의 구조를 생성하고 파트와 도면을 완성합니다.
Learn about SOLIDWORKS Flow Simulation software. View sample applications from the real world. View sample real world examples where the software was used.
Prepare SOLIDWORKS geometry for Flow Simulation analysis. Create lids manually. Create lids using the Lid Creation tool. Check if the geometry is water tight for internal flow analysis. Detect leaks in improperly sealed geometry.
Build the SOLIDWORKS Flow Simulation project. Use Wizard to define Flow Simulation project. Define boundary conditions. Define goals. Mesh the model geometry.
Run SOLIDWORKS Flow simulation and monitor it. Postprocess Flow simulation results. Launch the SOLIDWORKS Flow simulation and monitor it in the solver window. Monitor execution of the simulation in the solver window. Postprocess results using cut plots, surface plots, flow trajectories. Create 2D graphs from the calculated results, extract results on desired geometrical entities.
Mesh the Flow Simulation geometry using automated meshing approach. Understand the Basic mesh, and Initial mesh concepts. Control the Global Initial mesh refinement level. Analyze the Minimum Gap Size feature value as the project settings change. Plot mesh on cut plots.
Mesh the Flow Simulation geometry using manual meshing approach. Control Basic mesh settings. Apply manual mesh setting and options. Define control planes. Define and apply local mesh controls. Plot mesh on cut plots.