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.
Lesson
1 月 前
ENG
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.
Lesson
1 月 前
ENG
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.
Lesson
1 月 前
ENG
Build the SOLIDWORKS Flow Simulation project. Use Wizard to define Flow Simulation project. Define boundary conditions. Define goals. Mesh the model geometry.
Lesson
1 月 前
ENG
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.
Lesson
1 月 前
ENG
Learn about SOLIDWORKS Flow Simulation software. View sample applications from the real world. View sample real world examples where the software was used.
Lesson
1 月 前
ENG
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.
Lesson
1 月 前
ENG
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.
Lesson
1 月 前
ENG
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.
Lesson
1 月 前
ENG
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.
Lesson
1 月 前
ENG
探索所有模組以瞭解 SOLIDWORKS Simulation 產品套件。 使用 SOLIDWORKS Flow 分析熱傳遞和流體流動。 使用 Sustainability 減少設計對環境的影響。 使用 SOLIDWORKS Simulation 探索應力-應變分析。 使用 SOLIDWORKS Motion 分析剛性本體動態。 使用 SOLIDWORKS Plastics 檢視塑膠射出零件的填補複製排列。
Lesson
6 月 前
ENG
瞭解如何以建立子模型的方式分析較大組合件中的一部分,以節省時間並取得較精確的結果。 從父系研究中產生子模型研究。 探索如何將負載自動轉移至子模型研究。 節省時間和計算資源,同時保持精確的結果。 使用 eDrawings 儲存結果。
Lesson
7 月 前
ENG
此單元可讓使用者觀察元素大小對應力、應變及位移的影響,以瞭解網格收斂的概念。 瞭解變更整體元素大小對結果有何影響。 探索如何在特定位置上套用網格控制。 查看尖銳角落如何產生應力集中。
Lesson
7 月 前
ENG
瞭解如何藉由變化模型尺寸來最佳化設計,並減輕模型重量。 套用參數和限制,最佳化您的設計以達到目標。 瞭解設計研究如何與 Simulation 搭配使用。
Lesson
7 月 前
ENG
瞭解如何使用薄殼來建構薄型結構的模型。 使用薄殼管理員,在薄結構上產生薄殼。 套用對稱固定物以減少計算工作。
Lesson
7 月 前
ENG
此單元簡介 Simulation 使用者介面,並逐步引導簡單零件的設定程序。隨後執行模擬及分析結果。 瞭解 Simulation 使用者介面。 套用固定物、材質和負載。 執行模擬並分析應力和位移的模型。
Lesson
7 月 前
ENG
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.
Lesson
7 月 前
ENG
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.
Lesson
7 月 前
ENG
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.
Lesson
7 月 前
ENG
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.
Lesson
7 月 前
ENG
Setup, run and postprocess a dynamic simulation with the base motion shock excitation. Understand the optimum mesh design, and get more familiar with the estimation of the minimum number of natural frequencies. Understand the basics of damping. Setup, run and postprocess a transient study Define base excitation shock load Use the mass participation factor to select a sufficient number of natural frequencies Optimize the finite element mesh for dynamic simulation Define structural damping Calculate the maximum time step Use remote mass to simplify the model
Lesson
7 月 前
ENG
Setup, run and postprocess a harmonic simulation. Understand and practice the frequency domain excitation definition. Practice postprocessing results from the harmonic study. Setup, run and postprocess a harmonic study Use the mass participation factor to select a sufficient number of natural frequencies Optimize the finite element mesh for dynamic simulation Define the harmonic load in the frequency domain Postprocess results from the harmonic study
Lesson
7 月 前
ENG
Setup initial dynamic simulation, solve and postprocess the results. Understand the importance of natural frequencies in dynamic simulations. Compare the dynamic and static results. Setup, run and postprocess a basic transient study Calculate a sufficient number of natural frequencies Use the mass participation factor to estimate a sufficient number of natural frequencies Run dynamic simulation for slow and fast forces, and compare their results
Lesson
7 月 前
ENG
Review the basic functionality of the SOLIDWORKS Dynamics module. Show activation of SOLIDWORKS Simulation Add-In. Review the available modules for specific dynamic load times.
Lesson
7 月 前
ENG