Applied Materials Simulation

Content

This lecture should give the students an overview of different simulation methods in the field of materials science and engineering. Numerical methods are presented and their use in different fields of application and size scales shown and discussed. On the basis of theoretical as well as practical aspects, a critical examination of the opportunities and challenges of numerical material simulation shall be carried out.

The student can

  • define different numerical methods and distinguish their range of application
  • approach issues by applying the finite element method and discuss the processes and results
  • understand complex processes of metal forming and crash simulation and discuss the structural and material behavior
  • define and apply the physical fundamentals of particle-based simulation techniques to applications of materials science
  • illustrate the range of application of atomistic simulation methods and distinguish between different models

preliminary knowlegde in mathematics, physics and materials science recommended

regular attendance: 34 hours

exercise: 11 hours

self-study: 165 hours

oral exam ca. 35 minutes

no tools or reference materials

admission to the exam only with successful completion of the exercises

Language of instructionEnglish
Bibliography
  1. D. Frenkel, B. Smit: Understanding Molecular Simulation: From Algorithms to Applications, Academic Press, 2001
  2. W. Kurz, D.J. Fisher: Fundamentals of Solidification, Trans Tech Publications, 1998
  3. P. Haupt: Continuum Mechanics and Theory of Materials, Springer, 1999
  4. M. P. Allen, D. J. Tildesley: Computer simulation of liquids, Clarendon Press, 1996