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
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BE/B.Tech and ME/M.Tech Final Year Students needing guidance to execute a standout FEA-based project.
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Aspiring Design/CAE Engineers aiming to add Ansys Workbench expertise to their skill set.
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Research Enthusiasts exploring structural integrity, vibration analysis, or thermal management.
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Students Struggling with Simulation Work due to limited software access or mentorship.
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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:
Mesh convergence draft
Clean geometry and mesh file
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:
Stress and deformation plots
Complete static analysis case
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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Student Reviews
Our Recent Student Reviews
"This mentorship transformed my understanding of FEA from textbook equations to solving real-world structural problems. The live troubleshooting sessions with ANSYS experts were invaluable!"
Priya Mehta, NIT Trichy
Mechanical Engineering
"The project-driven approach helped me deliver a publishable FEA study on thermal stress in IC engine pistons. The 1:1 feedback sessions refined my approach to boundary conditions."
Rohan Desai, BITS Pilani
Automobile Engineering
"As a civil engineering graduate, this program helped me pivot to structural FEA roles. The crash course on fatigue analysis was a career game-changer!"
Anika Patel, IIT Delhi
Civil Engineering
"My university lacked advanced FEA resources, but this mentorship filled the gap. The WhatsApp support saved me hours during mesh refinement!"
Arjun Kumar, VIT Vellore
Aerospace Engineering
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