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Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
---|---|---|---|---|---|---|
Finite Element Applications In Biyomodels | BMM121 | Elective | Master's degree | 1 | Spring | 6 |
Associate Prof. Dr. İbrahim MUTLU
1) Explain the stress and deformations of biomodels under external and body forces
2) Develops biomodels of the organisms
3) Express the fundamental concepts and theory of the finite element method
4) Perform the computer based finite element simulations and analysis of real biomodels
5) Use of computeer code finite element based programs, preprocess, solutions, postprocess and interpret the results
Bölümün/programın program yeterlilikleri sistemde olmadığından ilişkilendirme işlemi yapılamamıştır.
Face to Face
None
Not Required
Terminology and mathematical expressions. The basis of the finite element method. One-dimensional problems (Axial tension-compression, tensile-poor elements form). Principles and natural boundary conditions. Multivariate formulas (Rayleigh-Ritz & Galerkin approaches, virtual work). Installation, smooth and non-smooth solutions. Convergence. Nonconvergence. 2D problems (Triangular, square, isoparametrik elements). Axisymmetric problems and applications. 3D problems. The modal analysis. Buckling and dynamic problems. Biyomodeller (Pelvis, femur, tibia, tibia-fibula, vertebrae, etc.) meniscus and cartilage models. Numerical analysts network structures. The use of ANSYS; preprocessing (Solid modeling, meshing, loads and boundary conditions) solution (Solver choices, parameter specification, tolerance issues etc) and postprocessing (Stress recovery, visualization etc).
Contribution of Quiz to Course Grade |
70% |
---|---|
Contribution of Final Examination to Course Grade |
30% |
Total |
100% |
Turkish
Not Required