Ansys Workbench - A Complete Course

Perform Thermal and Structural Analysis on 3D Models by ANSYS Workbench.

What you'll learn

Learner will be able to work with different ANSYS analysis tools in workbench.

Learner able to learn simulate engineering problems.

Learner will be able to determine how a product will function with different specifications.l

Learner understand analyzing and solving complex mechanical problems.

Requirements

Basic knowledge of CAD software

Basic knowledge of machine design and strength of material

Loaded ANSYS workbench on computer

There is no need to know about ANSYS. Course training will covers all tasks.

Description

ANSYS Workbench is the Numerical type of Engineering problem-solving software. Used to simulate interactions of all disciplines of Physics, Structural, Vibration, Fluid Dynamics, Heat Transfer and Electromagnetic for engineers.This course covers the mechanical analysis using ANSYS workbench.The course is about to correlate the Lerner with actual engineering problems.Able to make understand the problem definition and solve it.The course basically covers the interface to ANSYS workbench for mechanical preference.Course Includes:Analysis types available in Workbench - MechanicalStructural (static and transient):  Linear and Nonlinear Structural analyses. Dynamics: Modal, harmonic, response spectrum, random vibration, flexible and rigid dynamics. Heat Transfer (steady-state and transient): Solve for temperature field and heat flux. Temperature-dependent conductivity, convection, radiation, and materials allowed. Magneto-statics: Perform various magnetic field analyses. Electrical: Simulate electrical devices such as motors, solenoids, etc. Why ANSYS Workbench? You will learn about what is finite element analysis and finite element methods.You will learn about ANSYS workbench FEA numerical engineering problem solver.Interface to ANSYS mechanical.Various meshing techniques and methods.How to create geometry using ANSYS modeler.You will learn a step by step procedure to solve engineering problems using ANSYS workbench.You will learn how to define contacts and boundary conditions.Able to do static structural analysis. Able to do thermal analysis.Able to do model analysis.Able to do coupled thermal structural analysis.Able to understand the practical approach of ANSYS workbench solver through examples.SS eAcademy offers Complete training for ANSYS Workbench.

Overview

Section 1: Introduction of ANSYS

Lecture 1 Introduction of ANSYS Workbench

Lecture 2 Introduction of FEA

Lecture 3 Basics of Statics and Strength of Materials

Section 2: Geometry creation using ANSYS workbench

Lecture 4 Basic Geometry creation

Lecture 5 How to Sketch Geometry

Lecture 6 Mechanical Model and Finite Element Modeler

Section 3: Meshing in ANSYS Workbench

Lecture 7 Introduction to ANSYS Meshing

Lecture 8 How to create Meshing

Lecture 9 How to Create Sweep Meshing

Lecture 10 Different types of Meshing Method

Section 4: Static Structural analysis in ANSYS Workbench

Lecture 11 2D and 3D Plain Stress analysis of Bracket

Lecture 12 Static Structural analysis of 3D Geometry

Lecture 13 Static Structural analysis of Knuckle Joint

Lecture 14 Static Structural analysis of Tori-Spherical Bottom

Lecture 15 Static Structural analysis for Standard Tensile

Section 5: Non Linear analysis in ANSYS Workbench

Lecture 16 Bending Test Non Linear

Lecture 17 Non Linear of I-Beam

Section 6: Thermal analysis in ANSYS workbench

Lecture 18 Steady State Thermal analysis of Piston

Lecture 19 Thermal analysis of Sprocket

Section 7: Linear Buckling analysis in ANSYS Workbench

Lecture 20 Linear Buckling analysis

Section 8: Thermal Couple Structural analysis of Conventional type Jacketed Pressure Vessel

Lecture 21 Thermal Couple Structural analysis of Conventional type Jacketed Pressure Vessel

Section 9: Fatigue analysis using ANSYS Workbench

Lecture 22 Fatigue analysis using ANSYS Workbench

Section 10: Transient Structural analysis

Lecture 23 Transient Structural analysis

Section 11: Advance Static Structural analysis

Lecture 24 Report Consideration

Lecture 25 Grouping Tree Object

Lecture 26 Main Menu

Lecture 27 Standard Toolbar

Lecture 28 Graphic Toolbar

Lecture 29 Graphic Option Toolbar

Lecture 30 Edge Graphic Option and Explode View Option

Lecture 31 Tree Filtering Option

Lecture 32 Named Selection, Joint Configuration, Unit Conversion

Lecture 33 Model Context - Part 01

Lecture 34 Model Context - Part 02

Lecture 35 Geometry Context

Lecture 36 Axis Symmetrical Closed Cylinder analysis

Lecture 37 Cyclic Symmetry Model analysis

Lecture 38 How to Create variable Force Loads

Lecture 39 Rotational Velocity Definition with help of Turbine Blade

Section 12: Bonus - Practice Model STEP File

Lecture 40 Export External CAD file

DesignEngineer,Civil Engineer,Mechanical Engineer,Structural engineer,CAD CAM Expert