Finite Element Method

Finite Element Method

Industry relevance

Today simulation forms the core of engineering design with simulation replacing physical testing to a significant extent. Therefore effective use of (be it an in house code or a commercial code) simulation needs strong FEM fundamentals. The appreciation for modelling components with correct elements, are fundamental to the accurate prediction of the system behavior. Trouble shooting and result interpretation requires the physics background of FEM concepts.

Example: Detailed comparison of FEM vs theory of elasticity.

Learning outcomes
Treated with matrices calculus and trigonometry
  • Appreciation for all real time factors that influence the natural frequency of vibrations. (including stress stiffening, softening, gyrsostiffening temperature etc.).
  • Appreciation for critical speed of shafts and influence of bearing support structure
  • Appreciation for critical speed of shafts and influence of bearing support structure
  • Appreciation for designing physical damping, computing dynamic amplification factor hence dynamic stress.

Course Features
Lectures : 26
Quizzes : yes
Language : English
Assessments : yes
Certificate of Completion : yes
Total time : 01: 23: 17
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