Detailed Introduction to Ansys Workbench

Detailed Introduction to Ansys Workbench, available at $74.99, has an average rating of 4.45, with 105 lectures, based on 634 reviews, and has 4118 subscribers.

You will learn about Will be able to understand theoretical aspect of FEA and fundamental logic behind its implementation in commercial CAE codes such as Ansys Workbench Material creation through engineering data and CAD/Geometry modelling using Design Modeler Will be able to perform Linear and Non Linear structural analysis and review results in appropriate manner. Will be able to perform and corelate various types of thermal analysis. This course is ideal for individuals who are Mechanical, Automobile , Aeronautical engineering students and professionals or Anyone who wants an insight into validation of products It is particularly useful for Mechanical, Automobile , Aeronautical engineering students and professionals or Anyone who wants an insight into validation of products.

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Summary

Title: Detailed Introduction to Ansys Workbench

Price: $74.99

Average Rating: 4.45

Number of Lectures: 105

Number of Published Lectures: 105

Number of Curriculum Items: 105

Number of Published Curriculum Objects: 105

Original Price: ?7,900

Quality Status: approved

Status: Live

What You Will Learn

Will be able to understand theoretical aspect of FEA and fundamental logic behind its implementation in commercial CAE codes such as Ansys Workbench

Material creation through engineering data and CAD/Geometry modelling using Design Modeler

Will be able to perform Linear and Non Linear structural analysis and review results in appropriate manner.

Will be able to perform and corelate various types of thermal analysis.

Who Should Attend

Mechanical, Automobile , Aeronautical engineering students and professionals

Anyone who wants an insight into validation of products

Target Audiences

Mechanical, Automobile , Aeronautical engineering students and professionals

Anyone who wants an insight into validation of products

******************* Course Structure  ***************************

The course will take you on exciting journey of solving various engineering problem through FEA using ansys workbench.

Main theme of the course is to get you familiar with theoretical aspect of FEA and gradually moves towards more effective ways of solving problems. Along the with getting results from Ansys Workbench, more focus is given on verifying those results and corelating those results with physical situation. At the beginning of each module, theoretical aspect will be covered first and then we will solve problems using Ansys Workbench based on theory.

We will start with Theory of FEA , where you will get familiar with various ways in which you can find solution to given problem and the logic behind most of the CAE codes/tools/software’s.

Below is the brief outline of the course and various modules involved in the course.

1. Theory of FEA/CAE

2. Objective of this module is to get you familiar with FEA/CAE.

3. Understanding problem solving techniques.

4. How FEA works.

5. Ansys Workbench user interface.

6. Material Creation though engineering data

7. Getting familiar with material creating in ansys workbench

8. Importing and exporting of materials.

9. Design Modeler

10. Objective of this module is to become proficient in CAD/Geometric modelling.

11. Extensive and in depth sessions are provided related to each option that Ansys Workbench has to offer.

12. Introduction to Meshing

13. Getting familiar with various options available in Ansys Workbench for meshing.

14. Linear Static Structural Analysis

15. Theory of static structural analysis.

16. Understanding loads and boundary conditions in CAE.

17. In depth look at each boundary condition with example.

18. Project : Allen Key Analysis

19. Modal Analysis

20. Theory of modal analysis and governing equation.

21. Examples on Gear, Plate, Prestress Wing.

22. Advanced topic of mode participation factor.

23. Project : Frame Structure modal analysis.

24. Buckling Analysis

25. Theory of buckling analysis.

26. Column Buckling with analytical correlation.

27. Examples on connecting rod and mobile tower.

28. Non Linear Structural Analysis

29. Theory of Non Linear Analysis.

30. Types of non linearities.

31. Controlling non linear analysis.

32. Problems involving non linearities.

33. Steady State Thermal Analysis

34. Theory of steady state thermal analysis.

35. CAE solutions and co-relation with formulae’s.

36. Problems involving heating coil, bar.

37. Transient Thermal Analysis

38. Theory of transient thermal analysis.

39. Transient Thermal vs Steady State Thermal

40. Project : Intake Manifold

41. Dynamic Analysis

42. Types of structural analysis.

43. Types of dynamic analysis.

44. Explicit Analysis

45. Taylor Test/ Cylinder Impact

46. Parametric Study on cylinder impact

47. Pipe Impact Analysis

48. Solution accuracy validation : Energy Error

49. Design/Topology Optimization

50. Introduction to Design Optimization

51. Example : Bridge Optimization

52. Example : C-Clip

53. Example : L Plate

Last section will be placed for your doubts. I will update this session with answers to all of your doubt

******************* Course Updates  ***************************

1. Added new section on topology optimization.

2.Added new examples on topology optimization.

3.Added new video titled “Implicit vs Explicit”.

Course Curriculum

Chapter 1: Theory of FEA

Lecture 1: Product Lifecycle Management

Lecture 2: Degree of Freedom

Lecture 3: Methods to Solve Engineering Problem

Lecture 4: Intuition of CAE Softwares/Tools

Lecture 5: CAE and its Domains

Lecture 6: Steps in FEA

Lecture 7: FEA and Interpolation Function

Lecture 8: Types of Numerical Methods

Lecture 9: Types of Elements

Lecture 10: Linear vs Non-Linear & Steady vs Transient

Chapter 2: Material Creation Through Engineering Data

Lecture 1: Overview- Engineering Data

Lecture 2: Manual Method of Material Creation

Lecture 3: Material Library

Chapter 3: Geometry Creation : Design Modeler

Lecture 1: Overview – Design Modeler

Lecture 2: Geometry Manipulation

Lecture 3: Draw Toolbox

Lecture 4: Modify Toolbox

Lecture 5: Dimension Toolbox

Lecture 6: Constraint Toolbox

Lecture 7: Body Types in Design Modeler

Lecture 8: Extrude

Lecture 9: Revolve

Lecture 10: Sweep

Lecture 11: Skin Loft

Lecture 12: Thin Surface

Lecture 13: Blend & Chamfer

Lecture 14: Slice

Lecture 15: Creating Plane

Lecture 16: Body Transformation

Lecture 17: Boolean

Lecture 18: Pattern

Lecture 19: Creating Line Body

Lecture 20: Creating Surface Body

Lecture 21: Split Edge

Chapter 4: Introduction to Meshing

Lecture 1: Mechanical Window Interface

Lecture 2: Global Mesh Controls : Part-1

Lecture 3: Global Mesh Controls : Part-2

Lecture 4: Global Mesh Controls : Part-3

Lecture 5: Global Mesh Controls : Part-4

Lecture 6: Local Mesh Controls : Sizing

Chapter 5: Linear Static Structural Analysis

Lecture 1: Overview : Theory of Linear Static Analysis

Lecture 2: Getting Familiar with Steps Involved in Analysis

Lecture 3: Importance of Boundary Conditions (Loads & Supports)

Lecture 4: Enforced Displacement

Lecture 5: Compression Only Support

Lecture 6: Simply Supported Beam : Solid Elements

Lecture 7: Simply Supported Beam : 1D Elements

Lecture 8: Fun with Cantilever Beam : Part 1

Lecture 9: Fun with Cantilever Beam Part 2

Lecture 10: Hydrostatic Pressure

Lecture 11: Example : Flower Vase

Lecture 12: Theory : Plane Stress & Plane Strain

Lecture 13: Example : Plate Plane Stress

Lecture 14: Allen Key Analysis

Chapter 6: Modal Analysis

Lecture 1: Overview : Modal Analysis

Lecture 2: Governing Equation : Modal Analysis

Lecture 3: Example : Plate Modal Analysis

Lecture 4: Example Gear Modal Analysis

Lecture 5: Project : Frame Structure

Lecture 6: Mode Participation Factor

Lecture 7: Example Pre-Stress Modal Analysis : Plane Wing

Chapter 7: Buckling Analysis

Lecture 1: Introduction to Buckling Analysis

Lecture 2: Column Buckling Analysis

Lecture 3: Example Connecting Rod

Lecture 4: Example Mobile Tower

Chapter 8: Non Linear Static Structural Analysis

Lecture 1: Introduction to Non Linear Analysis

Lecture 2: Types of Geometric Non Linearities

Lecture 3: Geometric Non-Linearity ON vs OFF

Lecture 4: Spring Plate with Large Deflection

Lecture 5: Controlling Non-Linear Analysis : Steps, Substep and Iteration

Lecture 6: Theory : Material Non-Linearity

Lecture 7: Example : Spring Plate with Metal Plasticity

Lecture 8: Introduction To Contacts

Lecture 9: Types of Contacts

Lecture 10: Example : Spur and Rack Gear

Chapter 9: Steady State Thermal Analysis

Lecture 1: Overview : Thermal Analysis

Lecture 2: Theory : Steady State Thermal Analysis

Lecture 3: Heat Conduction Through Bar

Lecture 4: Heat Convection From Bar

Lecture 5: Heat Transfer By Radiation : Heating Coil

Chapter 10: Transient Thermal Analysis

Lecture 1: Theory : Transient Thermal Analysis

Lecture 2: Transient vs Steady State Thermal Analysis

Lecture 3: Intake Manifold

Chapter 11: Dynamic Analysis

Lecture 1: Types of Structural Analysis

Lecture 2: Types of Dynamic Analysis

Lecture 3: Implicit vs Explicit

Lecture 4: Theory : Damping

Lecture 5: Example : Spring Damping

Lecture 6: Theory : Harmonic Analysis

Instructors

Orville Academy Plus
CAE Analyst at reputed MNC

Rating Distribution

1 stars: 7 votes

2 stars: 14 votes

3 stars: 55 votes

4 stars: 240 votes

5 stars: 318 votes

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