Ansys Workbench 2020 R1 -design and simulation

Lesson 1 - Introduction & Inspiration In this session, we will have quick introduction and inspiration. We will see the overall flow of this course, starting from Engineering Data; we will create geometries using Space Claim and then analyze the model using Ansys Mechanical. We will have a quick review of different problem statements that will be solved in this course along with their simulations at a glance. Lesson 2 - Units and Interface In this session, we will see the basic interface of Ansys Workbench. Afterwards, we will see how to set units as default, how to suppress units and how to set units temporarily for specific project only. Lesson 3 – Engineering Data In this session, we will learn the first step of analysis, i.e. Engineering Data Tab. We can assign specific material to our model in Engineering Data. There is a preset library of a variety of materials in Ansys Workbench. We can monitor and change different property values of selected material as per requirement. Lesson 4 – Geometry - Space Claim Introduction In this session, we will learn about the second step of analysis, i.e. Geometry. In Ansys Workbench 2020 R1, geometries are created in Space Claim. We will have a slight introduction of Space Claim software and learn soft shortcuts necessary to improve the speed of work flow. Lesson 5 – Geometry - 2D Tools In this session, we will learn how to access and use various 2D tools in Space Claim, as it is an essential to complete the geometry and move towards the next step of analysis. Lesson 6 – Geometry - 3D Tools In this session, we will learn how to access and use some 3D tools in Space Claim. Starting with Pull command we will learn how to revolve, sweep and blend geometries. Lesson 7 – Geometry - 3D Patterns In this session, we will learn how to create patterns in Space Claim. The patterns can be created for 2D or 3D and pattern type can be linear , polar or rectangular as per requirement. Lesson 8 –Beam under uniformly distributed load In this session, we will analyze a beam under uniformly distributed load. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 9 –Beam under point load In this session, we will analyze a beam under point load. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 10 –Beam under combined loads In this session, we will analyze a beam under combined loads. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 11 – Truss Analysis (line body) In this session, we will analyze a truss and assign L beam profile to it. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 12 – Beam Analysis (line body) In this session, we will analyze a beam under line body and give it a square beam profile. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 13 – Steady State Thermal Analysis - Heat Sink In this session, we will do steady state thermal analysis for heat sink. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 14 – Transient Thermal Analysis - Heat Sink In this session, we will do transient thermal analysis for heat sink. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 15 – Modal Analysis - Harmonic Response In this session, we will analyze a plate and perform modal analysis. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 16 – Fly Wheel - Effect of rotational velocity In this session, we will model and analyze a fly wheel to see the effect of rotational velocity on it. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 17 – Factor of Safety – Static Load In this session, we will find factor of safety for a geometry under static load. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file. Lesson 18 – Factor of Safety – Cyclic Load In this session, we will find factor of safety for a geometry under cyclic load. We will solve for required calculations mentioned in problem statement and compare the results achieved from Ansys Workbench and analytical method. Furthermore, we will simulate the process and export as MP4 file.