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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.
Build the SOLIDWORKS Flow Simulation project. Use Wizard to define Flow Simulation project. Define boundary conditions. Define goals. Mesh the model geometry.
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.
Learn about SOLIDWORKS Flow Simulation software. View sample applications from the real world. View sample real world examples where the software was used.
SOLIDWORKS Motion is a virtual prototyping tool for engineers and designers interested in understanding the performance of their assemblies. Perform a basic motion analysis using SOLIDWORKS Motion. Simulate the weight of a vehicle on the jack. Determine toque and power required to lift it.
Simulate a mechanism placing an object into a box and a cover on the box. Apply servo motors. Add proximity sensors. Create and run event based motion study.
Generate a cam profile based on an input follower displacement from a data set. Define a motion of a follower using Data Points. Generate a cam profile using Trace Path. Verify the generated cam profile.
Examine the motion of a catapult as it is loaded and throws a projectile. Add solid bodies contact, add a spring and apply friction. Determine torque required to rotate the crank and load the catapult. Determine the displacement of the loading spring. Study the effect of contact friction on the motion of the projectile.
Project Planner를 사용하여 실시간으로 프로젝트 상태를 계획하고, 실행하고, 모니터링합니다. 작업, 종속 관계, 마일스톤을 사용하여 새 프로젝트 계획을 세웁니다. 기존 프로젝트 계획을 불러옵니다. 기존 프로젝트로부터 마스터 프로젝트 계획을 세웁니다. 대시보드를 조사하여 프로젝트를 모니터링합니다.
3DPlay 앱을 사용하여 설계 변경을 검토하고, Product Explorer 안에 있는 Relational Explorer를 사용하여 설계 변경의 영향을 살펴보고, 3D Component Designer를 사용하여 설계 변경을 완료하고, Compare 앱을 사용하여 이전 설계 버전과 새 설계 버전을 비교합니다. 3DPlay에서 3D Markup을 검토합니다. Product Explorer 내에서 Relational Explorer를 사용하여 ‘사용된 위치’ 정보를 찾습니다. 영향을 받은 SOLIDWORKS 설계 파일의 새로운 버전을 생성하고 로드합니다. 설계를 수정하고 3DEXPERIENCE 플랫폼에 저장합니다. 새 개정 버전을 이전 개정 버전과 비교합니다. 업데이트된 설계를 발표합니다. 설계 수정 작업을 완료합니다.
작업, Product Explorer 앱, Bookmark Editor 앱을 사용하여 팀원들과 함께 프로젝트 문서 및 SOLIDWORKS 설계를 검토하고 발표합니다. 작업 첨부파일 및 산출물을 추가하고 검토합니다. Product Explorer 앱에서 SOLIDWORKS 설계를 검토합니다. Product Explorer 앱의 Product Structure Explore 창에서 제품 구조를 탐색합니다. Product Explorer 앱의 3D Navigate 창에서 설계를 봅니다. Bookmark Editor 앱을 사용하여 SOLIDWORKS 설계를 관리하고 발표합니다. 설계 검토 작업을 완료합니다.
3D Component Designer를 사용하여 SOLIDWORKS를 3DEXPERIENCE 플랫폼에 연결하고 Collaborative Tasks 앱을 사용하여 임시 작업을 관리합니다. 할당된 프로젝트 작업을 검토하고 완료합니다. SOLIDWORKS를 3DEXPERIENCE 플랫폼에 연결합니다. 새 설계를 생성하고 3DEXPERIENCE 플랫폼에 저장합니다. 임시 Collaborative Tasks을 생성하고 관리합니다.
데이터 및 제품 수명 주기를 클라우드에서 쉽게 관리함으로써 비즈니스 민첩성을 향상시키고 혁신적인 제품을 더 빨리 출시할 수 있게 도와줍니다. Project Planner를 사용하여 실시간으로 프로젝트 상태를 계획하고, 실행하고, 모니터링합니다. 3D Component Designer를 사용하여 SOLIDWORKS를 3DEXPERIENCE 플랫폼에 연결하고 Collaborative Tasks 앱을 사용하여 임시 작업을 관리합니다. 작업, Product Explorer 앱, Bookmark Editor 앱을 사용하여 팀원들과 함께 프로젝트 문서 및 SOLIDWORKS 설계를 검토하고 발표합니다. 3D Markup 앱을 사용하여 기존 설계를 검토하고 주석을 달며, 설계 변경 사항을 전달합니다. 3DPlay 앱을 사용하여 설계 변경을 검토하고, Product Explorer 안에 있는 Relational Explorer를 사용하여 설계 변경의 영향을 살펴보고, 3D Component Designer를 사용하여 설계 변경을 완료하고, Compare 앱을 사용하여 이전 설계 버전과 새 설계 버전을 비교합니다.
Use the Machine dialog to define the parameters of the machine tool used to manufacture the part. Set machine properties to select machine type and duty for manufacturing. Select tool crib to be used by machine. Select the post processor used to generate NC code. Set posting parameters for post processor.
Learn how to create different types of drawings and use their configuration settings to control various aspects. Create a new drawing and use Project Configuration to define its title block and mark. Create 2D cabinet layouts and place components. Generate drawings automatically based on inputs defined in their configuration managers.
Learn about various drawing types that you can create in SOLIDWORKS Electrical. Understand how Wiring Line Diagrams can be used to create high-level synoptic drawings. Use Scheme drawings to create detailed designs using electrical symbols, components and wires. Create Mixed Scheme drawings to combine high-level and detailed schematic information on one page.
Understand how to create and use SOLIDWORKS Electrical projects. Use project templates to create new projects. Modify project settings based on country or industry standards. Understand the use of configuration files for managing user-defined preferences. Create archives and snapshots to backup and share data.
Become familiar with the SOLIDWORKS Electrical product and its user interface. Understand the main elements of SOLIDWORKS Electrical. Get to know the user interface and learn how to customize it. Learn about user rights management. Create an environment archive to backup or share data.
Define an accurate 2D profile or sketch using Geometric and/or Dimensional Constraints. Geometric Constraints create and uphold relationships between sketch entities while Dimensional Constraints specify distances or angles between the sketch entities. Assign Geometric Constraints such as Horizontal, Vertical, Coincident, Perpendicular, Parallel, Tangent, etc. Create Dimensional Constraints with numeric values with labels. Manage Dimensional Constraints for edit, delete and create user-defined parameters.
Manipulate the 3D Model view properly to work on the geometry as intended. Use a variety of tools to enable rotating the model freely, updating the model view type and to add custom coordinates systems to get the right location and angle. View the 3D model at different angles such as Top, Bottom, Left and various isometric angles. Use the computer mouse or orbit command to freely pan, zoom and rotate the 3D model. Learn to view with different view types such as Wireframe, Hidden, Gouraud, Flat with Edges, etc. Setup custom coordinates systems with CCS defining based on a view or entity.
Create some very complex 3D surfaces or geometries by defining a mesh with custom contours and numerous editable points for better control and design. Create basic primitive mesh shapes as a starting point to the design. Generate individual mesh faces using 3D Face tool. Control a network of mesh points by defining an outer perimeter with the Edge Mesh tool to fill it in. Use the 3D Mesh command allowing to define the location of every point in a mesh.
Get the models closer to the finished geometry by learning to modify, remove, combine, slice or replicate the 3D geometries. Use Boolean operations such as Union and Subtract. Reshape the edges of 3D geometries using Fillet Edges or Chamfer Edges with different options. Remove or split the material of 3D geometries using the Slice tool Replicate geometry in multiple instances throughout the design with Mirror 3D and Pattern 3D
Review a variety of 3D solid modeling tools exclusively for DraftSight Premium. Learn to use some common 3D tools to create simple primitive shapes and complex custom 3D geometries. Create 3D basic geometric forms such as Box, Wedge, Cylinder, Sphere, and Torus. Generate sketch-based or complex 3D shapes using Extrude, Revolve, Sweep, PolySolid, Push and Pull, and Loft.