Overview

ANSYS is a general purpose software, used to simulate interactions of all disciplines of physics, structural, vibration, fluid dynamics, heat transfer and electromagnetic for engineers. ANSYS simulates tests in virtual environment before manufacturing prototypes of products. Furthermore, determining and improving weak points, computing life and foreseeing probable problems are possible by 3D simulations in virtual environment.

ANSYS can import CAD data and also enables to build geometry with its "preprocessing" abilities. Similarly in the same preprocessor, finite element model which is required for computation is generated. After defining loadings and carrying out analyses, results can be viewed as numerical and graphical. ANSYS can carry out advanced engineering analyses quickly, safely and practically by its variety of contact algorithms, time based loading features and nonlinear material models.

ANSYS Workbench is a platform which integrates simulation technologies and parametric CAD systems with unique automation and performance. The power of ANSYS Workbench comes from ANSYS solver algorithms with years of experience.

Learning Objectives/ Training Outcomes

Course will enable the participant to perform the simulations using Ansys mechanical. The participant will be able to define the stress concentration areas in their problems thus creating an optimized design from cost as well as materials saving point of view.

Course Level: Beginner

 Methodology

Modules: Ansys Design Modeler 13.0,

                 Ansys Mechanical

Ansys Design modeler 13.0 will be used to make CAD geometries. Files will then be imported into Ansys Mechanical. Meshing as well as the Analysis will be performed in this module.

Detailed Outline

Topics Covered:

1.    Introduction to Ansys Design Modeler 13.0

1.1         Basic drafting tools

1.2         Sketches, Surfaces

1.3         3D Modeling

1.4         Boolean, Body operations

1.5         Face imprinting, Share topology

1.6         Geometry analysis tool

1.7         Tips and tricks for optimized geometry for robust Meshing

2.    General Preprocessing of CAD geometry

2.1         Introduction to Engineering Data

2.2         Accessing material libraries

2.3          Creating new materials

3.    Meshing Control

3.1         Structured and unstructured mesh

3.2         Introduction to Mechanical APDL Element Reference

3.3         Direct, Indirect Meshing techniques

3.4         Tips and Tricks for optimized brick hexahedral elements

4.    Structural Analysis

5.    Free Vibration Analysis

6.    Pre-Stressed Vibration Analysis

7.    Steady State Thermal Analysis

8.    Linear Buckling Analysis

9.    Results Processing

10. CAD & Parameters Management

Potential Participants / Organizations

The course is explicitly designed to cover the basics thus making it an ideal learning platform for:

1. Students / beginners
2. Mechanical Engineers
3. Faculty members of Colleges / Universities
4. All type of Organizations involved in Mechanical Engineering Projects

 

Starting From	Timings	Last Date of Registration	Fee
22-03-12	1730-2030 (Thu-Fri-Sat)	20-03-11	Rs:10,000 Per Participant

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