8-Weeks FEA Training

FEA Mentorship in Ansys Workbench ₹29,999 + GST

  • Industry led CFD Training with 16+ Years Experienced Trainers
  • Advanced Ansys Workbench FEA Tool Training
  • 1 on 1 Career Guidance
  • Live Industry Project
  • Resume Building + Mock Interview
  • Industry Standard Certificate
  • BE | B. Tech Final Year Assistance 
  • ME | M. Tech Thesis Assistance
  • Research Paper Publication Assistance
  • Guaranteed Job Internship for Top Students

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Course

Course Overview

Title: FEA Mastery with Ansys Workbench for Final Year Projects
Duration: 8 Weeks | Mode: Online Mentorship + Live Support
Tools Covered: Ansys Workbench (Static Structural, Modal, Thermal, Transient Modules)
Support: 2 Weekly Sessions + 1:1 Reviews + WhatsApp/Email Assistance

Program Highlights:
A hands-on, project-focused mentorship designed to equip BE/BTech students with advanced Finite Element Analysis (FEA) skills using Ansys Workbench. From geometry setup to transient simulations, learn to solve real-world structural, thermal, and dynamic problems while completing your final year project. Includes report writing, viva prep, and industry-ready simulation expertise.

Why enrol in the Program?

🔧 Industry-Aligned FEA Expertise
Master in-demand tools like Static Structural, Modal, and Thermal Analysis—skills sought in automotive, aerospace, and R&D roles.

👨🏫 Expert Mentorship
Learn from Ansys-certified mentors with 5+ years of industry experience. Get personalized feedback on simulations, reports, and presentations.

📂 Complete Final Year Project
Walk away with a submission-ready project, including simulation files, plots, and a professionally formatted report.

🛠️ Hands-On Learning
Build confidence through practical labs: from mesh convergence studies to transient thermal stress analysis.

🚀 Career Acceleration
Strengthen your resume with FEA proficiency, project certification, and interview-ready technical knowledge.

Perfect For

  • BE/B.Tech and ME/M.Tech Final Year Students needing guidance to execute a standout FEA-based project.

  • Aspiring Design/CAE Engineers aiming to add Ansys Workbench expertise to their skill set.

  • Research Enthusiasts exploring structural integrity, vibration analysis, or thermal management.

  • Students Struggling with Simulation Work due to limited software access or mentorship.

  • Internship Seekers wanting to showcase FEA projects for automotive, aerospace, or robotics roles.

Course Syllabus

On a daily basis we talk to companies expert in these domains to fine tune our curriculum. Here are the list of courses that are part of this program

  • Introduction to FEA concepts: stress, strain, deformation, boundary conditions

  • Choosing a suitable final year project in structural/thermal analysis

  • Introduction to Ansys Workbench interface

  • Understanding the simulation lifecycle: Geometry → Mesh → Setup → Solution → Results

  • Deliverables:
    Finalized project title and objectives
    Simulation plan and material selection

     

     

  • Importing/creating geometry in Ansys DesignModeler or SolidWorks

  • Setting up named selections and contacts

  • Generating structured/unstructured mesh

  • Mesh quality checks and refinement strategy

  • Mesh convergence concept

  • Deliverables:
    Clean geometry and mesh file

    Mesh convergence draft
  • Applying loads, supports, fixtures, boundary conditions

  • Material assignment (steel, aluminum, composites, etc.)

  • Running static simulations for stress, strain, deformation

  • Von Mises stress interpretation and safety factor estimation

  • Deliverables:
    Complete static analysis case

    Stress and deformation plots
  • Modal: Natural frequency extraction and mode shape visualization

  • Thermal: Steady-state temperature distribution

  • Understanding harmonic response (intro)

  • Multi-physics coupling (basic)

  • Deliverables:
    Modal/thermal simulation files
    Discussion of relevance to real-world problem

  • Time-dependent load or thermal boundary condition setup

  • Running transient simulations

  • Plotting response vs time (stress, deformation)

  • Deliverables:
    Transient simulation plots
    Interpretation and conclusion

     

  • Drafting simulation methodology and results
  • Explanation of simulation choices (mesh size, material, BCs)
  • Formatting and compliance with college guidelines
  • Creating graphs and figures from Ansys reports
  • Deliverables:
    Draft project report
    Figures and tables ready for final submission
  • Viva prep and mock Q&A session

  • Review of slides and final report

  • Highlighting unique aspects of simulation

  • Feedback and final polishing

  • Deliverables:
    Final PPT
    Final PDF report
    Simulation project files
    Certificate of project mentorship

     

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