30h Th, 30h Pr, 60h Proj.
Number of credits
Language(s) of instruction
Organisation and examination
Teaching in the first semester, review in January
Units courses prerequisite and corequisite
Prerequisite or corequisite units are presented within each program
Learning unit contents
Develop theoretical background and practical skills to be able to handle complex modelling situations such as the ones that appear in metal forming, crash/impact and biomechanical problems. First a general theory for non linear continuum mechanics is introduced. Its influence on the way to formulate constitutive equations for large deformation problems is emphasized. Then algorithmic treatment of the continuum model is undertaken, including time integration of constitutive equations and finite element development for large strain problems, time integration of conservation equation and contact problems.
Learning outcomes of the learning unit
Being able to
- Develop complex non linear models for metal forming, impact or biomechanical problems.
- Understand numerical techniques to solve the model.
- Use a finite element code for numerical simulation of extremely non linear situations.
Prerequisite knowledge and skills
Mechanics of materials, continuum mechanics and finite elements.
Planned learning activities and teaching methods
Personal project: complete modeling of a material forming process or impact /contact situation.
Mode of delivery (face-to-face ; distance-learning)
Face to Face + computer project.
Recommended or required readings
English version of the slides available via eCampus.
Assessment methods and criteria
Computer project: report + oral presentation. During the oral presentation, mainly focused on the project, questions regarding the theoretical content can also be asked.
Laboratories, in relation with the computer project will also be organized. It is mandatory to attend these laboratories.