Industry Oriented course on FEM analysis (Ansys FEM softwares, Workbench)

Application oriented (Industry perspective course)

  • Software: Ansys work bench, Spaceclaim and Ansys FEM solver
  • Learn with Industry projects, Faculty with 20 years experience in Industry
  • Course Duration: 30 days , ( both online and offline)
Total Course Fee

₹ 45000 | $ 518

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Elevate Your Engineering Career with Our FEM Courses

Our post graduate programme in FEM analysis (Ansys) is meticulously crafted to provide a hands-on, application-oriented learning experience. We focus on the practical aspects of FEA, ensuring that participants are well-prepared to tackle real-world engineering challenges. Our FEM courses are designed to help engineering professionals excel in the field of finite element analysis (FEA), using industry-leading software including Ansys Workbench, Spaceclaim, and Ansys FEM Solver. The exposure to these industry-standard tools ensures that participants are well-versed in the technology used by leading companies worldwide.

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Who Should Enroll in Our FEM Courses?

The FEM courses are structured to be completed in six to eight intensive weeks. This duration strikes a balance between depth of learning and practicality for professionals who are keen to upskill efficiently. Our post graduate programme in FEM analysis (Ansys) is ideal for:

  • Engineers and engineering graduates looking to enhance their skills in finite element analysis.
  • Professionals seeking to transition into roles that require expertise in FEA.
  • Engineering teams within organizations aiming to upskill in FEM analysis for improved product development and design processes.

For further details, course schedules, and enrollment information, contact our team today!

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Syllabus

Basic concepts of Finite element method, Element types, stiffness matrix and force vectors. Degrees of Freedom. Geometry clean-up, 1D Elements - Rod, Bar & Beam. 2D Elements (Shell Elements) - Triangular and Quadrilateral elements. 3D Elements (Solid Elements) – Tetrahedral, Hexahedral elements. FEA steps: Pre-processing, Solution & Postprocessing.

Force, Stress, Strain, Stress-Strain diagram of material, Elastic constants, Poisson’s ratio, thin and thick cylinders, Shear force and bending moment diagrams, Bending and shear stresses, Deflection of beams, Torsion of circular shaft, Thermal stresses, Failure theories, Yield strength, Ultimate strength, Fatigue strength, S-N diagram & Factor of safety.

Introduction to ANSYS design modeler, Geometric primitives, Boolean, Coordinates, Work planes, Geometric operations, Axis. Finite element modelling (meshing), meshing and size controls, mesh refinement, Elements attributes, element types, material properties, creation of components, connections/contacts, Boundary conditions (Fixed support, Displacement support etc), Types of loads: concentrated load, surface, body and inertial loads. Remote forces, Remote Displacements.

Linear static analysis, Non-linear static analysis (Geometric, Material and Contact), Linear buckling analysis, Dynamic Analysis- Modal analysis, Random Vibration, Harmonic Response analysis, Transient dynamic analysis & Fatigue analysis, crash analysis.

List of Projects

We use Ansys Spaceclaim and work bench for CAD cleanup and ANSYS FEM solver for analysis and post processing.

  • 1D and 2D analysis
  • Valve and single piston assembly Multi Body Dynamics (MBD)
  • Lifting point Analysis
  • Vertical Pressure Vessel Hydro static Test
  • Car crash analysis
  • Other Minor projects

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