a.setAttribute('href', 'mailto:' + M5768440588013718); Numerical methods for solving partial differential equations arising from problems in solid mechanics. Introduction to finite element and finite difference methods. ME-460 Renewable energy (for ME) ME-475 Multi-body simulation. They also have the opportunity of prepare a PhD to integrate research in university or other organisations. This programme is a partnership between the University of Paris Descartes and ParisTech – on which Arts et Métiers depends – with additional expertise: life sciences and biomedicine from the Paris university and engineering and technology from ParisTech. Linear dynamic problems. Transient conduction: models of the isothermal block and semi-infinite solids. Capacity of written or spoken reporting, in French or English. MECAmaster helps companies to simulate the impact of the geometrical reality on the design choices to make using a powerful and robust tolerance (and load) analysis. Upon successful completion of the Double Degree requirements (150 ECTS), two separate diplomas are conferred to the student according to the local regulations: The students will evolve in a stimulating international environment. Forced and natural convection, internal and external convection. Foundations of numerical analysis, interpolation methods, numerical integration, and solving ordinary differential equations. while (div.childNodes.length > 1) Linear and non-linear problems in small and large deformations. Foundations of continuum mechanics for fluids and the associated transfer modes. STG – Ingénieur simulation numérique en mécanique H/F. -->, angela.vincenti @ upmc.fr (angela.vincenti @ upmc.fr), Splash (Numerical Simulation - Inst. A simulation model enables you to try and test your design ideas with ease: fast, inexpensive and free of risk. Learning ANSYS / Fluent and Comsol Multiphysics software, Introduction to the modelling of mechanical systems. Presentation of concrete cases via seminars given by professionals from the business world, Linear and non-linear problems in small and large deformations. It is reserved for students with high skills in mathematics, numerics and solid and fluid media. The understanding of the biomechanical behavior of the musculoskeletal system and the design of medical devices require diversified knowledge in various fields such as medical sciences (anatomy, cell and tissue biology, medical imaging…), mechanics of materials, finite element simulation, motion analysis of the human body. Mastering of commercial codes leader in industry and research laboratories. However, we highly encourage motivated students to participate to Erasmus exchange program with other universities during the second semester of first year of the master. ME-419 Production management. Radiative transfer equation in semi-transparent media and simplified models. You can even add your self-made car in the Car Editor. More specifically, the skills acquired will be: - ability to understand and analyze the physical phenomena involved in the mechanics of solids and structures as well as good notions in fluid mechanics and associated transfer modes; - mathematical modeling ability of these physical phenomena at the scale of the material and the structure and notions at the microscopic scale; - ability to implement and analyze the associated numerical resolution methods (finite differences, finite volumes, finite elements), through the development of prototype codes using a programming language (Matlab, Fortran or C); - mastery of the major commercial codes that are leaders in the field and widely used in industry and research laboratories (ANSYS, Abaqus, Comsol-Multiphysics, etc. For any information, or if you are potentially interested in this program, send us a mail at one of the following adresses: corrado.maurini @ upmc.fr (corrado.maurini @ upmc.fr), jose.fullana @ upmc.fr (jose.fullana @ upmc.fr)