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TRAININGS > SOLIDWORKS SIMULATION PROFESSIONAL (1 DAY)
This course is designed to make SolidWorks Simulation users productive with the SolidWorks Simulation Professional extension. This 1 day course will provide an in-depth coverage on the advanced topics in Finite Element Analysis (FEA) including heat transfer analysis, frequency analysis, fatigue, stability analyisis based on the linear buckling concepts, 2D simulations (plane stress, strain and axisymmetry) and pressure vessel modulus. Example or parts and assemblies including those with various gap.contact conditions are reviewed. Prerequisites: Students must have attended the introductory SolidWorks Simulation course (3 days) or must have working knowledge of the SolidWorks Simulation software. Knowledge of SolidWorks and basic mechanical engineering concepts is recommended. TOPICS COVERED: Introduction: About This Course What is SolidWorks Simulation? Limitations of SolidWorks Simulation Professional Chapter 1: Frequency Analysis of Parts Objectives Modal Analysis Basics Case Study: The Tuning Fork Frequency Analysis With Supports Frequency Analysis Without Supports Frequency Analysis with Load Chapter 2: Frequency Analysis of Assemblies Objectives Case Study: The Engine Mount All Bonded Contact Conditions Bonded and Free Contact Conditions Chapter 3: Buckling Analysis Objectives Buckling Analysis Case Study: Particle Separator Chapter 4: Thermal Analysis Objectives Thermal Analysis Basics Case Study: Microchip Assembly Steady-State Thermal Analysis Transient Thermal Analysis Transient Analysis with Time Varying Load Transient Thermal Analysis using a Thermostat Chapter 5: Thermal Analysis with Radiation Case Study: Spot Light Assembly Project Description Steady State Analysis Full Radiation Conditions Chapter 6: Advanced Thermal Stress, 2D Simplification Objectives 2D Simulations - plane stress, plane strain, axisymmetry Thermal Stress Analysis Case Study: Thermal Expansion Joint Thermal Analysis Thermal Stress Analysis Chapter 7: Fatigue Analysis Fatigue Stress-life (S-N) Based Fatigue Case Study: Pressure Vessel Thermal Stress Study Fatigue Terminology Fatigue Study Fatigue Study with Dead Load Chapter 8: Advanced Fatigue Analysis Objectives Case Study: Suspension Fatigue Study Chapter 9: Drop Test Analysis Objectives Drop Test Analysis Case Study: Camera Rigid Floor Drop Test Elastic Floor Drop Test Elasto-Plastic Material Model Drop Test with Contact Chapter 10: Optimization Analysis Objectives Optimization Analysis Case Study: Press Frame Static and Frequency Analyses Optimization Analysis Design Study Chapter 11: Pressure Vessel Analysis Objectives Case Study: Pressure Vessel Pressure Vessel Analysis Manhole Nozzle Flange and Cover |
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