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Ansys Training Course

ANSYS training course imparts the skills to develop the product design and use the simulation methods to solve the most challenging product engineering problems. This training allows users to analyze...

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Course Description

ANSYS training course imparts the skills to develop the product design and use the simulation methods to solve the most challenging product engineering problems. This training allows users to analyze large product models before actual manufacturing. The participants explore about the software’s new innovations, including pre-processing functionalities; coupled physics capabilities; and high-perfor...

ANSYS training course imparts the skills to develop the product design and use the simulation methods to solve the most challenging product engineering problems. This training allows users to analyze large product models before actual manufacturing. The participants explore about the software’s new innovations, including pre-processing functionalities; coupled physics capabilities; and high-performance computing advancements. The learning curve expands and allows the candidates to accomplish multi physics workflows in structural, electromagnetics and thermal domains.

What you’ll learn
  • Live Class Practical Oriented Training
  • Timely Doubt Resolution
  • Dedicated Student Success Mentor
  • Certification & Job Assistance
  • Free Access to Workshop & Webinar
  • No Cost EMI Option
  • Working of Finite Element Modeling (FEA)
  • Implementing bottom-up and top-down construction in basic and advanced Solid Modeling
  • Creating geometric entities and work planes
  • Importing solid models and IGES files
  • Meshing the solid models and defining its generation and density
  • Applying loads in different disciplines
  • Static and Advanced Structural Analysis
  • Setting the analysis preferences among different types of thermal analysis
  • Setup problem using different CFD tools such as Fluent, CFX, ICEMCFD, Design modeller, Ansys meshing etc
  • Comparison of experimental or analytical data or available high quality CFD data to your own CFD analysis
  • Should be able to solve any CFD problem from starting to final results.

Covering Topics

1
Part 1: Ansys FEA
2
Part 2: Ansys Advance
3
Part 3: Ansys CFD
4
Project Development

Curriculum

      Part 1: Ansys FEA
Lecture-1 Introduction to FEA 
·      Introduction to FEA

·      General Working of FEA

·      Nodes, Elements, and Element Shapes

·      General Procedure of Conducting Finite Element Analysis

·      FEA through ANSYS

·      Effective Utilization of FEA

·      FEA Software

·      Advantages and Limitations of FEA Software

·      Practical Exercise              

Lecture-2 Key Assumptions in FEA 
·      Assumptions Related to Geometry

·      Assumptions Related to Material Properties

·      Assumptions Related to Boundary Conditions

·      Assumptions Related to Fasteners

·      Practical Exercise              

Lecture-3 Types of Analysis 
·      Structural Analysis

·      Thermal Analysis

·      Fluid Flow Analysis

·      Electromagnetic Field Analysis

·      Coupled Field Analysis

·      Practical Exercise              

Lecture-4 Important Terms and Definitions 
·      Strength

·      Load

·      Stress

·      Strain

·      Elastic Limit

·      Ultimate Strength

·      Factor of Safety

·      Lateral Strain and Poisson’s Ratio

·      Bulk Modulus

·      Creep

·      Engineering Materials

·      Practical Exercise
      Part 2: Ansys Advance
Lecture-5 Introduction to ANSYS 
·      System Requirements

·      Getting Started with ANSYS

·      Interactive Mode

·      Batch Mode

·      Starting a New File Using the ANSYS Product Launcher window

·      ANSYS Output Window

·      Utility Menu

·      Main Menu

·      Graphics Area

·      Standard Toolbar

·      ANSYS Command Prompt

·      Command Window Icon

·      Raise Hidden Icon

·      Reset Picking

·      Contact Manager

·      ANSYS Toolbar

·      Model Control Toolbar

·      Setting the Analysis Preferences

·      Units in ANSYS

·      Other Important Terms Related to ANSYS

·      Dialog Boxes

·      Graphics Display

·      Panning, Zooming, and Rotating the Model

·      Dividing the Graphics Area

·      The Pan-Zoom-Rotate Dialog Box

·      Graphics Picking

·      Using Mouse Buttons for Picking

·      ANSYS Database and Files

·      Practical Exercise              

Lecture-6 Basic Solid Modeling 
·      Solid Modeling

·      Solid Modeling and Direct Generation

·      Solid Modeling Methods

·      Bottom-up Construction

·      Top-down Construction

·      Considerations before Creating a Model for Analysis

·      Details Required

·      Symmetry

·      Creating Geometric Entities

·      Creating Lines

·      Creating Arcs

·      Creating B-Spines

·      Creating Fillets between Intersecting Lines

·      Creating Areas

·      Creating and Modifying Work planes

·      Display Working Plane

·      Show WP Status

·      WP Settings

·      Offset WP by Increments

·      Offset WP to

·      Align WP with

·      Coordinate Systems

·      Global Coordinate System

·      Local Coordinate System

·      Active Coordinate System

·      Display Coordinate System

·      Nodal Coordinate System

·      Element Coordinate System

·      Results Coordinate System

·      Creating New Coordinate Systems

·      Deleting Existing Coordinate

·      Practical Exercise              

Lecture-7 Advanced Solid Modeling 
·      Creating Volumes

·      Extruding Entities

·      Extending the Line

·      Creating Complex Solid Models by Performing Boolean Operations

·      Modifying the Solid Model

·      Scale

·      Move

·      Copy

·      Reflect

·      Deleting Solid Model Entities

·      Importing Solid Models

·      Importing the IGES File

·      Importing Models from Pro/ENGINEER

·      Importing the Model from Unigraphics

·      Finite Element Modeling (FEM) – I

·      An Overview of the Finite Element Modeling

·      Element Attributes

·      Element Types

·      Real Constants

·      Material Properties

·      Multiple Attributes

·      Assigning Multiple Attributes before Meshing

·      Assigning Default Attributes before Meshing

·      Modifying Attributes after Meshing

·      Verifying Assigned Attributes

·      Element Attributes Table

·      Practical Exercise              

Lecture-8 Finite Element Modeling (FEM) - II 
·      Mesh Generation

·      Mesh Density

·      Meshing the Solid Model

·      Setting Element Attributes

·      Defining the Mesh

·      Defining the Entity to be Meshed

·      Defining the Meshing Type

·      Meshing the Model

·      Refining the Mesh Locally

·      Extruding the Mesh

·      Transitional Pyramid Elements

·      Requirements for Creating Pyramid Elements

·      Creating Transitional Pyramid Elements (Hex-to-Tet Meshing)

·      Converting Degenerate Tetrahedral (20 nodes) Elements into

·      Non-degenerate (10 nodes) Tetrahedral Elements

·      Plotting Pyramid Elements

·      Meshing the Beam with Orientation Nodes

·      Creating the Beam Mesh with Orientation Nodes

·      Creating the Beam Mesh with Two Orientation Nodes

·      Improving the Tetrahedral Element Meshes

·      Improving Tetrahedral Meshed Volumes by Using Volumes

·      Improving Tetrahedral Meshed Volumes by Using Detached Elements

·      Some Additional Tips while Meshing the Model

·      Applying Loads

·      The Nodal Coordinate System

·      Loads in Different Disciplines

·      Types of Loads in ANSYS

·      Practical Exercise              

Lecture-9 Solution And Postprocessor 
·      Solution

·      Defining the New Analysis Type

·      Restarting the Analysis

·      Setting Solution Controls

·      Setting Analysis Options

·      Solving the Analysis Problem

·      Post processing the Result

·      POST1 (General Postprocessor)

·      POST26 (Time-history Postprocessor)

·      Result Coordinate System (RSYS)

·      Displaying the Deformed Shape of the Model

·      Displaying the Minimum and Maximum Stresses

·      Listing Reaction Forces

·      Listing Stress Values at each Node

·      Query Picking       

·      Path Operations

·      Load Case Combinations

·      Practical Exercise              

Lecture-10 Static Structural Analysis 
·      Effect of self-weight on a cantilever beam

·      Analysis of a bicycle handle

·      Analysis of a stud (pin)

·      Analysis of a master

·      Practical Exercise              

Lecture-11 Advanced Structural Analysis (Dynamic And Nonlinear) 
·      Advanced Structural Analysis

·      Dynamic Analysis

·      Performing the Modal Analysis

·      Specifying the Analysis Type, Analysis Options, and Applying Loads

·      Obtaining the Solution

·      Reviewing Results

·      Performing the Harmonic Analysis

·      Specifying the Analysis Type, Analysis Options, and Applying Loads

·      Obtaining the Solution

·      Reviewing Results

·      Performing the Transient Analysis

·      Specifying the Analysis Type, Analysis Options, and Applying Loads

·      Practical Exercise

·      Nonlinear Analysis

·      Geometric Nonlinearity

·      Material Nonlinearity

·      Boundary Nonlinearity (Changing Status)

·      Performing the Nonlinear Analysis

·      Specifying the Analysis Type, Setting Solution Controls, and

·      Applying Loads

·      Practical Exercise              

Lecture-12 Thermal Analysis 
·      Important Terms Used in Thermal Analysis

·      Heat Transfer Modes

·      Thermal Gradient

·      Thermal Flux

·      Bulk Temperature

·      Film Coefficient

·      Emissivity

·      Stefan–Boltzmann Constant

·      Thermal Conductivity

·      Specific Heat

·      Types of Thermal Analysis

·      Steady-State Thermal Analysis

·      Transient Thermal Analysis

·      Performing Steady-State Thermal Analysis

·      Setting the Analysis Preference

·      Creating or Importing a Solid Model

·      Defining Element Attributes

·      Meshing the Solid Model

·      Specifying the Analysis Type, Analysis Options, and Applying Loads

·      Solving the Analysis Problem

·      Post processing Results

·      Practical Exercise              

Lecture-13 Random Vibration 
·      In the Ansys setup for mechanical, modal and analysis settings

·      Practical Exercise         

Lecture-14 Solution 
·      In this section, we can process for the solution information for result

·      Practical Exercise              

Lecture-15 Results 
·      Understanding about deformation, strain, stress, volume and its types

·      Practical Exercise
      Part 3: Ansys CFD
Lecture-16 Introduction to CFD 
·      Terms

·      What is application of CFD

·      Meshing

·      Name of sections

·      Boundary condition

·      Multiphase

·      2d simulation

·      3d simulation

·      Multi Fluid

·      Materials

·      Temperature inputs

·      Pressure inputs

·      Velocity inputs

·      Inlet condition

·      Wall condition

·      Outlet condition

·      Result animation

·      Vector output

·      Contour output

·      Report generation

·      Practical Exercise              

Lecture-17 Understanding About readings 
·      Understanding about readings

·      Practical Exercise              

Lecture-18 Engineering Data Sources 
·      Introduction about engineering data sources

·      Properties of material and how to add new material in Ansys project

·      Practical Exercise              

Lecture-19 Geometry 
·      How to create geometry in Ansys design modeler

·      Import geometry

·      Practical Exercise              

Lecture-20 Meshing 

·      Meshing is an integral part of the engineering simulation process where complex geometries are divided into simple elements that can be used as discrete local approximations of the larger domain The mesh influences the accuracy, convergence and speed of the simulation

·      Practical Exercise              

Lecture-21 Setup 
·      Ansys setup for flow

·      Mass flow

·      Velocity

·      Pressure of fluid

·      Analysis inputs

·      Practical Exercise              

Lecture-22 Solution 
·      In this section, we can process for the solution information for result

·      Practical Exercise              

Lecture-23 Results 
·      Understanding about deformation, strain, stress, volume and its types

·      Practical Exercise              

Lecture-24 Understanding about readings 
·      How to read reading of analysis

·      Practical Exercise              

Lecture-25 Making Report 
·      How to make report and its important

·      Practical Exercise              

Lecture-26 Material and render for projects 
·      Material

·      Render

·      Practical Exercise              

Lecture-27 Generating The Report Of Analysis 
·      Starting the ANSYS Report Generator

·      Capturing Images for the Report

·      Capturing Animations for the Report

·      Capturing Data Tables for the Report

·      Capturing Lists for the Report

·      Compiling the Report

·      Changing the Default Settings of the ANSYS Report Generator

·      Error Estimation in Solution

·      Percentage Error in Energy Norm (SEPC)

·      Element Energy Error (SERR)

·      Element Stress Deviations (SDSG)

·      Practical Exercise
      Project Development

Frequently Asked Questions

The candidates with basic understanding of mechanical drafting or designing. A basic Knowledge on Finite Element Method and Strength of Materials is Good

The course offers a variety of online training options, including: Live Virtual Classroom Training: Participate in real-time interactive sessions with instructors and peers. 1:1 Doubt Resolution Sessions: Get personalized assistance and clarification on course-related queries. Recorded Live Lectures*: Access recorded sessions for review or to catch up on missed classes. Flexible Schedule: Enjoy the flexibility to learn at your own pace and according to your schedule.

Live Virtual Classroom Training allows you to attend instructor-led sessions in real-time through an online platform. You can interact with the instructor, ask questions, participate in discussions, and collaborate with fellow learners, simulating the experience of a traditional classroom setting from the comfort of your own space.

If you miss a live session, you can access recorded lectures* to review the content covered during the session. This allows you to catch up on any missed material at your own pace and ensures that you don't fall behind in your learning journey.

The course offers a flexible schedule, allowing you to learn at times that suit you best. Whether you have other commitments or prefer to study during specific hours, the course structure accommodates your needs, enabling you to balance your learning with other responsibilities effectively. *Note: Availability of recorded live lectures may vary depending on the course and training provider.