• CAD/CAM & Advanced CNC using Unigraphics)

      Course Content

    • Part Modeling Using Unigraphics.
    • CNC Machines Features, Tooling.
    • CNC program simulation in FANUC / SINUMERIC systems.
    • CAD/CAM connection & DNC link.
    • Cutter path generation for
      • Planar machining
      • Surface Machining
      • Cavity machining
      • Fixed & variable contour machining
      • Drilling & Turning
      • tool & die and mould machining
    • Demo / Practical in Production CNC Machining & Turning Centres and Rapid Prototyping Machine.
    • Post processing & CNC code Generation.

    Pre-Requisite: Dip/Degree in Engineering.

  • CAD using I-DEAS / Pro-E / Unigraphics / CATIA

      Course Content

    • CAD Introduction,
    • Sketcher - Basic sketch, Constraints -Geometry & Dimensional
    • Solid modeling Extrude, Revolve, Sweep etc and Variational sweep, Loft ...etc.,
    • Surface modeling 3D Datum, Extruded & Revolved Surfacing
    • Advanced Surfacing Techniques Ruled & Lofted Surfacing, Master Surfacing, Mesh of curves, Free form.. etc, Surface Operations..etc.,
    • Feature manipulation Copy, Edit, Pattern, Suppress, History operations.. etc.,
    • Assembly - Constraints, Patterns, Exploded Views, Interference check, Creating components from assembly
    • Drafting - Layouts, Standard & Sectional Views, Detailing.

    Pre-Requisite: Dip/Degree in Engineering.

  • CAD & Finite Element Analysis using I-DEAS & ANSYS

      Course Content

    • CAD modeling Solid modeling concepts using I-DEAS.
    • Philosophy of FEM & its need in the industry
    • Mathematical Formulation of FEM.
    • 1D and 2 D field problems.
    • Isoparametric Formulation.
    • FEA Applications in:
      • Stress analysis
      • Vibration analysis
      • Heat transfer analysis
      • Transient analysis

    Pre-Requisite:Engineering Degree

  • Computational Fluid Dynamics using CFX

      Course Content

    • Governing Equations in CFD
    • Discretisation:
      • a) Finite Difference method
      • b) Finite volume method
      • c) Finite element method,
    • Different Turbulence model studies
    • Grid generation methods
    • Application in:
      • Laminar & Turbulent fluid flow.
      • Compressible & Incompressible fluid flow.
      • Conjugate Heat transfer analysis.
      • Transient analysis.

    Pre-Requisite: Engineering Degree



    • ISRO, Trivandrum
      V. Gnana Gandhi,Project Director, LPSC - ISRO

      I wish to place on record my sincere appreciation for the excellent technical contribution rom Dr. K.Chandrasekaran, Dr. c. Jebaraj Mr.Gunasekaran and their design team of College of Engineering for our Cryogenic Project which is of high national importance. I thank you and your design team for the valuable contribution and co-operation.

    • IGCAR, Kalppakkam

      I greatly appreciate the quality and quantity of work completed

    • SDSC SHAR, Sriharikotta
      Participating Scientists

      Course Instructors Dr.Velraj & Dr. Antony Arul Raj were very knowledgable ..concepts illustrated by them can be utilised for our future and current projects. We would like to keep ur interactions with the AU-FRG team in future also.