Ansys Workbench
Courses Highlights:
Projects based assessment
Tailored Courses
Certified Trainers
Certificate of Completion
Course Summary
The mission of the Ansys training program is to maximize the productivity of every Ansys user. The Ansys state-of-the-art simulation solution enables innovative and groundbreaking product development when used at its full strength. Ansys Training offers you everything from “Getting Started courses” to deep dive learning topics. The Ansys Training Curriculum is designed to shorten your learning curve, sharpen your skills and keep you up-to-date with the latest technology. Find the right training solution for you, your team or your corporation to succeed on the virtual product development journey.
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 – Mechanical
Structural (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.
Who this course is for:
- Designing Engineer
- Civil Engineer
- Mechanical Engineer
- Structural engineer
- CAD CAM Expert
Syllabus
Topics you have to study
- Chapter 1: Before you start using Ansys
- a. Introduction to the Finite Element Method
- b. What is the Finite Element Method?
- c. General Steps of the Finite Element Method
- d. Explanation of 1D, 2D and 3D Elements with examples of ANSYS Elements
- e. Need of FEM
- f. Types of analysis that can be done using ANSYS
- g. Advantages of the Finite Element Method
- h. Limitations of FEA
- i. About ANSYS Inc.
- j. ANSYS Family of products with their capabilities
- k. Types of analysis that can be done with ANSYS.
- l. Introduction to the Ansys GUI
- m. Operation Modes of Ansys
- n. Product Launcher
- o. Launcher Menu Options
- p. The ANSYS GUI
- q. The Icon Toolbar Menu
- r. Quitting Ansys
- Chapter 2: Selection Logic
- a. Pan-Zoom-Rotate
- b. Picking
- c. Coordinate Systems
- Chapter 3: Solid Modeling
- a. An Overview of Solid Modeling Operations
- b. Working with Boolean operations
- c. Working Plane
- d. Importing of 3D models
- Chapter 4: Meshing
- a. Free meshing or Mapped meshing
- b. Setting Element Attributes
- c. Selecting Element Type
- d. Shape Function
- e. Defining Element Types
- f. Defining Section Properties
- g. Assigning Element Attributes before meshing
- h. Mesh Controls
- i. The ANSYS Mesh Tool
- j. Smart sizing
- k. Meshing
- l. Free Meshing
- m. Mapped Meshing
- n. Hybrid meshing
- o. Mesh Extrusion
- p. Volume Sweeping
- Chapter 5: Material Properties
- a. Material Library
- b. Specifying properties
- Chapter 6: Boundary Conditions
- a. Types of Loads
- b. Applying loads
- Chapter 7: Solvers
- a. Types of Solvers
- b. Solver Setup
- c. Load Step Options
- d. Solving Multiple Load Steps
- Chapter 8: Post-processing
- a. Contour Plot Viewing
- b. Time History Postprocessor (POST26)
- c. Report Generator
- Chapter 9: Introduction to Non-Linear Analysis
- Chapter 10: Tips & Tricks
- a. Using the Toolbar & Creating Abbreviations
- b. Introduction to APDL
- c. Using Parameters
- d. Using the Start File
- e. Using the Session Editor
- f. Using Input Files
- Chapter 11: ANSYS Workbench
- a. Introduction to ANSYS Workbench
- b. Graphical User Interface
- c. Static Structural Analysis
- d. Modal Analysis
- e. Thermal Analysis
- f. Contact Recognition
Projects
Projects is conducted by highly knowledgeable trainers which helps students to enhance their skill set by putting great emphasizes on project-based learning. After the successful completion of the course, students can get their certificates by logging to their dashboard, which makes the certificates completely secure and authorized.
Our Certificate Processes
3D Archlab Certification is Accredited by all major Global Companies around the world. We provide after completion of the theoretical and practical sessions to fresher’s as well as corporate trainees. Our certification at 3D Archlab is accredited worldwide. It increases the value of your resume and you can attain leading job posts with the help of this certification in leading MNC’s of the world. The certification is only provided after successful completion of our training and practical based projects.
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Our Instructors
Without any shadow of doubt, We are the members of the teaching community who impart progress into the students. Drawn from the reputed universities of India and abroad, the highly qualified and experienced faculty is the greatest asset of 3D Archlab. 3D Archlab team includes outstanding educators and researchers from both the academic and business sectors, contributing towards the overall professional and personal growth of the students.