ANSYS

introduction to structural analysis using ANSYS Workbench

SUyog S. PAWAr

Start

Types of analysis

structural

thermal

vibrational

REASONS TO SELECT THIS COURSE

• Ansys commonly used in the industry for a variety of applications. In this course, the student is taken through steps on how an FEA simulation is carried out in the industry.

• Both Static and Dynamic simulations are covered in this course. Anybody who is not familiar with basics of structural simulations can take the course.

• Hardcore mathematics are not explained here so as not to confuse the student who is looking for simplified approach.

• Designed with inputs from academicians and industry experts to ensure that students are trained in the skills expected in industry.

mODULES

Pre-requisites

Methodology

Problems & Solution

ANSYS Workbench

Interpretation

Engineering Data

Optimization

Modeling in ANSYS

pre requisites

This section gives an overview of FEA,

• The different solving techniques available
• Meaning of Finite Element Analysis
• Introduction to nodes and elements
• Need for meshing and different types of meshing

ansys workbench

This is an indusry- leading software from ANSYS that houses multiple analyses under one roof.

• Getting to know the basics GUI of ANSYS.
• Overview of different analysis systems available in ANSYS Workbench.
• Overview of different component systems in ANSYS.
• Creating and saving your first project.

engineering data

ANSYS Workbench has its own library of engneering materials with its corresponding material properties bulit-in. Therefore, we will work to look into various options available under engineering data.

• Going through various material libraries provided by ANSYS
• Understanding where and when to use paricular materials.
• Creation of New Material.
• Adding a Material for Analysis.

Mechanical Modeller

Using this we are going to setup the model for the problem we are going to solve. This modeller is common in all of the analysis systems provided by ANSYS.

• Importing and assignning material to the geometry
• The meshing of components
• Creating local co ordinate systems for the model.
• Defining contacts and joints if there are any to the model.

solution

After results or drived terms such as fatigue life, stress & strain intensity , deformation, strength, factor of safety we can do structural analysis.

• Finding of solutions
• Interpretation of results
• Optimization according to interpretation of model
• Product development, Product Lifecycle management, etc

who is this course for

• This course can be opted by all the students who are pursuing B.Tech or B. E. in Mechanical Engineering.

• Professionals working in quality, production and manufacturing domain and looking to move up the ladder in their career.

• This course will provide a deep understanding of the solving process of implicit and explicit solver. Also, you will gain expertise in setting up any model for performing basic structural simulation and post- processing results.

• Freshers looking for opprtunities as Mechanical Simulation Engineer, CAE Modeller, CAE Analyst (with Modeling Experience ), Static Equipment Engineer in static structural and R& D Domains.

Motor Presentation

RESULT

• At the end of this course you will able to set up a load case for any component/ model, simulate them and obtain its deformation, Fatigue life, The Factor of Safety and places of stress intensity

• You will Also be able to find optimized solution for system or products according to interpretation of solutions and results of case.

contact

suyogpawar95@gmail.com

+918554947299

suyogpawar95

introduction to structural analysis using ANSYS Workbench