Dr. KAVITHA MOL S


Dr. KAVITHA MOL S

I am an experienced finite element analysis engineer with extensive experience in the design, analysis and testing of aerospace structures. My expertise includes finite element analysis, metallic material development, composite fracture analysis and design optimization. My extensive experience in the field and knowledge of engineering fundamentals allows me to quickly identify structural problems, develop solutions, and implement those solutions in a timely manner. I have been involved in a variety of projects, including aircraft wing and tail structures, bird strike performance testing of aircraft components, composite structure analysis and material performance optimization.

LinkedIn Profile

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TKM College of Engineering , Kollam logo
  • Master of Technology – MTech, Mechanical Engineering
    2009 – 2011
APJ Abdul Kalam Technological University logo
  • Doctor of Philosophy – PhD, Mechanical Engineering
    2018 – 2023

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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Soft Body Impact on Laminated Composites: A Comprehensive Tutorial Package

Original price was: € 380.0.Current price is: € 342.0.

This comprehensive tutorial package focuses on simulating soft body impacts on laminated composite materials using the Finite Element Method (FEM) in Abaqus. The course covers key topics such as soft body modeling, metal material modeling, composite material modeling, composite to composite interface modeling, metal to composite interface modeling, interaction between soft bodies and FML, interaction between layers, and Python scripting for parametric studies. Users will explore different material models and learn about impact failure mechanisms, including matrix failure, fiber failure, shear failure, and delamination. The course is structured into lessons that cover theoretical aspects, followed by hands-on workshops to model soft body impacts, apply material properties, and analyze post-processing results such as forces, displacements, and energy dissipation. It also includes an advanced section on Python scripting, enabling users to automate parametric studies for complex simulations. This package is ideal for engineers, researchers, and students looking to deepen their understanding of soft body impact phenomena and composite material behavior.

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