you are in Training >> Home >> Software Training

Software Training Program


Jetwings under the guidance of NAFEMS − India, Head office @ U.K. is organizing many workshops, seminars in FEA & CFD training programs specially designed to launch the students for the international competitive market.

These courses are aimed at practicing students who wish to learn more about how to apply Finite Element Method / Finite Element Analysis and Computational Fluid Dynamics Analysis Techniques in the most effective manner. The course material will consist of real time case studies from both Industry & R&D problems related to day to day engineering issues arising in the industries in FEA & CFD projects and the students will be trained on how to solve these problems in a well defined professional way of approach. This course is a must for all engineers aiming to use FEM/FEA/CFD as a reliable predictive tool for analysis.

Following are the main objectives we are trying to achieve thorough this course:

  • Help engineering graduates to acquire more practical knowledge on Structural Designing, Structural strength & behavior and Flow analysis on Aerospace / Automobile structures.
  • Provide In depth knowledge in FEM/FEA/CFD practices.
  • Bridge gap between FEM/FEA/CFD practitioners and students.
  • To spread R&D activities at academic institutes.
  • To attract engineering talent towards core engineering fields.

Jetwings is Authorized ANSYS training Provider

List of our courses are

Structural Designing & 3D Modeling

Structural Designing & 3D Modeling

It is also known as Computer-aided design and drafting (CADD), is the use of computer technology for the process of design and design-documentation. Computer-aided drafting describes the process of drafting with a computer. CAD software, or environment, provides the user with input-tools for the purpose of streamlining design processes; draftingand manufacturing processes.

CAD environments often involve more than just shapes. As in the manual drafting of technical and engineering drawings, the output of CAD must convey information, such as materials, processes, dimensions, and tolerances, according to application-specific conventions.

Course Overview

This course is designed to provide an in-depth study of computer-aided drafting and design in three-dimensions. The course focuses on the understanding, construction, and manipulation of extrusion, wireframe, surface, and solid models using CAD. Our staff has expertise and experienced knowledge in 3D modeling, 3D extrusion, wireframe, solid modeling, and presentation of 3D models, plotting and rendering 3D drawings.Generative Drafting. Part design & Assembling, Weld Design, Rivet Design,. Wireframe and Surface design. Aerospace Sheet Metal, DMU kinematics, Generative shape design

Job Prospects

Training in this area will give students the excellent knowledge and practical skills at a Engineer level, in Design , Drafting & 3D Modeling leading to jobs that support the work of professional engineers by preparing drawings and specifications, designing to requirement of the customer, Easing the manufacturing process etc.,. Hence making the demand for Design and drafting engineers in various industries includes Automobile, Aerospace , Marine , Manufacturing, Railways , Coach building factories, Oil & Natural gas , Machine tools ,Irrigation structures , consulting Agencies , Defence industry, Research, Mining, Government departments and various laboratories.

Aero or Mechanical structures & systems-Design and Drafting course combines traditional engineering design concepts with advanced computer design curriculum. The program prepares graduates for specialized employment in the Aircraft Design, Automotive Design, Engineering & Manufacturing or for further engineering studies.

Real-World Problem Solving

Students in their Engineering degree program will learn the Engineering Drawing ,Engineering Graphics , Computer Aided Designing & Drafting and manufacturing procedures , Mechanics of machines , Aircraft structures etc. Here in this course , You'll work in a professional environment that simulates the workplace, while doing project-based assignments based on real-world engineering tasks. You'll learn to work with 2D and 3D software to explore the design concepts of engineering components.

Majority of the companies has recruitment on Aircraft designing like HAL, NAL, BAeHAL, Safran Aerospace India Pvt Ltd, Good rich Aerospace India Pvt ltd, Airbus India, Infotech,G.E, Boeing, Tata Technologies, Cades, CAE (Canadian Aerospace) etc.

Computational Fluid Dynamics - CFD

Computational Fluid Dynamics - CFD

Computational Fluid Dynamics(CFD) is the art of simulating a flow of fluid or gas in a given geometry. It is often used to assess the performance of engineering devices, to explore in a cost-effective manner several competing designs or to provide understanding of flow processes within or around a given configuration. It is essential to have an excellent understanding of each of six stages to produce an accurate CFD simulation. These stages include creating or importing your geometry into CFD software (e.g. a CAD model); creating a computational grid; choosing the best algorithm for your problem; running the simulation; verifying the results and finally post-processing the data.

Course Objectives

On completion of this course you will have an appreciation of CFD and underlying theory. This includes the effective use of grid generation software; an understanding of the different numerical methods employed in CFD software; the choice of appropriate CFD methods and turbulence models; sources of error; and what is required in order to demonstrate confidence in your CFD results. The organization recruiting you will benefit from having an employee or researcher who is up to date with state-of-the-art methods in commercial CFD. CFD is a rapidly growing industry and attending this course will put you in a strong position for to develop future business in this field.

Course Topics − Theory Sessions

The course features lectures on:

  • Fluid Mechanics - Theory
  • Thermodynamics - Theory
  • Aerodynamics - Theory
  • Propulsion - Theory
  • Introduction to CFD - Theory
  • Grid Generation methods
  • Numerical Methods
  • CFD for High Speed Flows
  • CFD for Low Speed Flows
  • Principles of Verification and Validation
  • Turbulence Modeling
  • Post-processing and Visualization Techniques

Course Overview − ICEM CFD

The Introduction to ICEM CFD training course is for ANSYS users needing to learn advanced meshing techniques for complex geometries. The course is geared to cover the pre-processing needs for all analytical applications including computational fluid dynamics, finite element (structural), electromagnetics and other simulation modeling programs.

  • Introduction and navigating within the ICEM CFD Graphical User Interface
  • Geometry handling
  • Boundary conditions & Defnition
  • Shell Meshing
  • Tetrahedral meshing
  • Output to Solver
  • Prism meshing
  • Hexahedral meshing
  • Mesh editing/quality improvement
  • Hands-on session using students own geometries.
  • Each topic is followed by "hands-on" workshops.

Course Overview − CFX

  • ANSYS CFX is a powerful set of computational fluid dynamics (CFD) software programs that allows solving CFD problems quickly and robustly. This two day course is designed to provide an all-round overview of the software, including:
  • Set a CFD case in CFX using CFX-Pre
  • How to set boundary conditions and turbulent modeling in CFX-Pre
  • How to add an equation, source term or user defined function in CFX-Pre.
  • How to set a multiphase case in CFX-Pre (free surface problems with VOF model)
  • How to run a CFX case in BlueBEAR in batch mode using CFX-Solver.
  • Visualize the results using CFX-Post.

Who Should Attend?

This course is ideal for:

  • Working Professionals in Design, Manufacturing and Service Industry
  • Larger businesses wishing to provide convenient and accessible continuing professional development to staff working in this field
  • Engineers starting to incorporate CFD into their existing design processes
  • Researchers or students who plan to use CFD during their research project
  • Experienced engineers looking for a refresher course on the basics of CFD and the capabilities of modern cutting-edge software methods.
  • Engineering Graduates and Post-Graduates (B.E / B.Tech / M.E. / M.Tech in Aerospace, Automobile, Mechanical, Industrial Production, Chemical, Petro-chemical, Bio-chemical and Bio-medical).
  • Third Year (Sem-II) or Final Year Engineering Students.
  • Final Year B.E Students who are aspiring for higher education abroad

Finite Element Analysis - FEA

Finite Element Analysis - FEA

Finite element analysis (FEA) is a computerized method for predicting how a product reacts to real-world forces, vibration, heat, fluid flow, and other physical effects. Finite element analysis shows whether a product will break, wear out, or work the way it was designed. It is called analysis, but in the product development process, it is used to predict what is going to happen when the product is used.

FEA works by breaking down a real object into a large number (thousands to hundreds of thousands) of finite elements, such as little cubes. Mathematical equations help predict the behavior of each element. A computer then adds up all the individual behaviors to predict the behavior of the actual object. Finite element analysis helps predict the behavior of products affected by many physical effects like Mechanical stress , Mechanical vibration , Fatigue , Motion , Heat transfer , Fluid flow .

Course Objectives

  • Provide an understanding of the principles and techniques in stress analysis.
  • Provide a hands-on experience of solution methods and procedures in real structural design problems.
  • To make Engineers aware of problem areas and to promote good design practice.

Who Should Enroll

Students pursuing bachelor’s degree in Aeronautical / Mechanical engineering or equivalent, Automobile Engineers , Entry-level engineers, Engineers entering from other fields and Designers of Experimental Cars , Automobiles & Aircrafts, Mechanical components & systems, Prototypes, Micro lights and UAVs will find the course material extremely beneficial.

Introduction ANSYS Structural Analysis Course

Course Description

This course is recommended for anyone who performs finite element analysis (FEA) of Aerospace & Mechanical parts or fluids and has little or no ANSYS software experience. This course focuses on basic linear and static analyses of Aircraft structural and/or mechanical parts. After completing the course, attendees should be able to efficiently use ANSYS software to build two- and three-dimensional models, apply loads, obtain solutions, and display results.

Before you start using Ansys

  • Introduction to the Finite Element Method
  • What is the Finite Element Method?
  • History
  • General Steps of the Finite Element Method
  • Explanation of 1D, 2D and 3D Elements with examples of ANSYS Elements
  • Need of FEM
  • Advantages of the Finite Element Method
  • Limitations of FEA

This training course will cover the following topics:

  • FEA and Advantages of ANSYS Software
  • Getting Started
  • Structural Analysis Basics
  • General Analysis Procedure
  • Creating the Solid Model
  • Creating the Finite Element Model
  • Defining Material Properties
  • Applying Loads
  • Solution Process
  • Structural Analysis
  • Thermal Analysis
  • Fatigue Analysis
  • Post-processing
  • Working with Elements
  • Beam Modeling
  • Coupled Field Analysis
  • Modal Analysis
  • Introduction to Nonlinear Analysis

Each course chapter is followed by "hands-on" workshops and exercises





Jetwings has provided FEA engineering services to a variety of industries including Aerospace, Educational and Industrial machinery utilizing the ANSYS multiphysics software for Finite Element Structural Analysis.


  • Training from Experts in the industry
  • Placement in Aerospace Industry
  • 100% placement support
  • Resume correction & building
  • Interview Preparation, Guidance & support
  • Excellent Course Material will be provided
  • Practical approach throughout all the sessions and hands on training
  • Weekend courses Available