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Get familiar with the 3DEXPERIENCE platform environment, objects, objects and project organization for SIMULIAworks projects. Create basic design changes. Use PLM Services Connector to transfer SOLIDWORKS files with multiple assembly configurations to 3DEXPERIENCE platform. Organize 3DEXPERIENCE platform objects in folder-like structure with the help of bookmarks. Transfer design changes made in SOLIDWORKS into SIMULIAworks case studies.
1 rok před
Postprocess SIMULIAworks results with multiple simulations, and case studies. Compare SIMULIAworks results. Share SIMULIAworks results in with coworkers and managers in the 3DEXPERIENCE platform environment. Postprocess SIMULIAworks results field plots, and time XY plots Use the Compare Results feature to present field plots and XY graphs across various simulations and case studies Share SIMULIAworks results into Collaborative Spaces, and with other 3DEXPERIENCE platform users. Use 3DPlay and Physics Simulation Review to review SIMULIAworks results.
1 rok před
Get started with SIMULIAworks structural applications on the 3DEXPERIENCE platform. Bring a model from SOLIDWORKS Desktop into the 3DEXPERIENCE platform. Learn about the structural applications of the SIMULIAworks roles. Perform a simulation of a buckle using SIMULIAworks structural applications.
1 rok před
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.
1 rok před
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
1 rok před
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
1 rok před
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
1 rok před
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.
7 měsíců před
Learn about SOLIDWORKS Flow Simulation software. View sample applications from the real world. View sample real world examples where the software was used.
7 měsíců před
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.
7 měsíců před
Build the SOLIDWORKS Flow Simulation project. Use Wizard to define Flow Simulation project. Define boundary conditions. Define goals. Mesh the model geometry.
7 měsíců před
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.
7 měsíců před
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.
7 měsíců před
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.
7 měsíců před