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ED5015- Computational Methods in Design - Online Lectures

  • Lecture 1 | 23 minutes | Beam theory, Related equations, Computing Strain Energy etc

  • Lecture 2_1 | 11 minutes | Comparison of deflection, BM and SF plots from FE approximation and exact

  • Lecture 2_2 | 19 minutes | DoF, Shape function for the Beam, RR on Beam, examples

  • Lecture 2_3 | 41 minutes | RR on Beam, examples

  • Lecture 3_1 | 9.30 minutes | Recap

  • Lecture 3_2 | 30.30 minutes | RR+beam examples, Plane frame

  • Lecture 4_1 | 15.43 minutes | Recap, FE for Heat Transfer

  • Lecture 4_2 | 09.12 minutes | FE for Heat Transfer - Simple method, DE

  • Lecture 4_3 | 32.33 minutes | FE for Heat Transfer - Gelarkin formulation

  • Lecture 5_1 | 25.53 minutes | FE for plane solids - Introduction

  • Lecture 5_2 | 32 minutes | FE for Heat Transfer - Displacement continuity

  • Lecture 5_3 | 28 minutes | FE for Heat Transfer - Computation of potential for different loading conditions

  • Zoom Doubt/Clarification Session -1 | 40 minutes | Sign of potential, clamped clamped beam BCs

  • Lecture 6_1 | 37.28 minutes | Examples using CST. Beam bending using CST. Intro to Rectangular element

  • Lecture 6_2 | 25 minutes | Shape functions, [K], [B] for rectangular element,Simple shear

  • Lecture 6_3 | 36 minutes | Pure bending example, Higher order rectangular elements, Isoparametric mapping

  • Lecture 7_1 | 20 minutes | Isoparametric mapping with examples

  • Lecture 7_2 | 36 minutes | Jacobian with examples, strain displacement matrix

  • Lecture 7_3 | 40 minutes | Find strains using Jacobian, Guass quadrature

  • Lecture 8_1 | 26 minutes | FE procedure in design, preprocessing

  • Lecture 8_2 | 31 minutes | Mesh control, convergence, force application

  • Lecture 8_3 | 38 minutes | Solver, accounting for multiple forces, FE for design, sensitivity

  • INVITED LECTURES
  • Lecture 8_4 | 20 minutes | Prof. Sundararajan Natarajan (Prof @ME-IITM) Advances in FE

  • Lecture 8_5 | 20 minutes | Mr. Murali Balasubramanian (Innovation Lead - APAC, Fiat Chrysler Automotive) FE in Industry





  • This page provides a list of courses offered by me:
    (i) Academic courses at IITM
    (ii) Quality Improvement Program (QIP) and Continuing Education Program (CEP) to Engineering Colleges and industries
    (iii) Invited talks

    Courses


    ED 2120: Mechanics of Deformable Solids (2013,14)
    ED 3020: Design For X (2010,11,12,13,14,15,16,17)
    ED 4030: Finite Element Methods for Design (2010,11,12,15,16,17)
    ED 2060: Product Design Lab 1 (2011,12,13,14,15,16)
    ED 6002: Optimization Methods in Engineering Design (2015,16,17)
    ED 1011: Functional and Conceptual Design (2016,17)
    MOOC:
    Design for Quality, Manufacturing and Assembly
    Approximations and Surrogates in Engineering Design


    Workshops


    (QIP-Quality Improvement Program, CEP-Continuing Education Program)

    Invited talks/Guest lectures