Dr. Vishwas Divse


Dr. Vishwas Divse

Material modeling and finite element analysis. Progressive damage modelling of metals and composites. Thermo-mechanical fatigue analysis of metallic components. Finite element modelling of manufacturing processes such as machining, drilling, laser- assisted machining.

Top skills

  • Finite Element Analysis (FEA)
  • Fatigue Analysis
  • Material modeling
  • Damage modeling composites/metals
  • Stress Analysis

LinkedIn Profile

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  • Caterpillar India private limited · Full-time
    Aug 2022 – Present · 2 yrs 2 mos
    India
  • IIT Bombay · Full-time
    Jul 2016 – Dec 2021 · 5 yrs 6 mos
    IIT Bombay
  • RAJIV GANDHI UNIVERSITY OF KNOWLEDGE TECHNOLOGIES, BASAR · Full-time
    Jun 2014 – Jun 2016 · 2 yrs 1 mo
    Basar, Telangana, India

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Indian Institute of Technology, Bombay logo
  • Doctor of Philosophy – PhD, Mechanical Engineering
    Jul 2016 – Dec 2023
Indian Institute of Technology, Delhi logo
  • Master of Technology (M.Tech.), Manufacturing Engineering
    Jun 2012 – Jun 2014
Shri Guru Gobind Singhji Institute of Engineering and Technology, Vishnupuri, Nanded logo
  • Bachelor of Technology – BTech, Production Engineering
    Jun 2008 – Jun 2012

At CAEAssistant.com, we collaborate with a distinguished group of researchers who bring a wealth of academic and industry experience to our platform. These experts are not only leading voices in their respective fields but also active contributors to cutting-edge research, with numerous ISI-indexed publications and industry-relevant projects under their belts. Their deep expertise in areas such as finite element analysis, composite materials, and advanced simulation techniques ensures that the courses they create are both academically rigorous and practically valuable. By learning from these accomplished professionals, our students gain access to the latest knowledge and insights, empowering them to excel in their careers and research endeavors.

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Laser Assisted Machining (LAM): Modeling and Simulation in Abaqus/CAE

 310.0

In this tutorial, a comprehensive discussion on modeling and simulation of laser assisted machining is presented. It includes building FEM-based models of machining, laser heating, and laser-assisted machining models in Abaqus/CAE. The finite element method (FEM) simulation is based on the coupled thermo-mechanical behavior. The package walks learners through building models that simulate the impact of laser heating on the workpiece. Detailed lessons cover constructing basic machining and laser heating models, setting boundary conditions like cutting speed and laser power, and writing subroutines such as DFLUX and VDFLUX to simulate laser heat sources. Additionally, learners will perform analyses to study temperature distribution, and stress-strain behavior. Through parametric analysis and comprehensive result evaluation, learners will gain a deep understanding of temperature distribution, stress behavior, and how laser heating can improve the machining process.