The Master of Science in Computational Mechanics is designed for students who wish to develop their knowledge and competency in the field of computational mechanics with applications in solids, fluids and interdisciplinary fields. The programme also includes a component of entrepreneurship and innovation.
The goal is to provide the students with the skills for the modelling, formulation, analysis and implementation of simulation tools for advanced engineering problems, as well as skills for understanding these approaches in the broader context of business and innovation. Students will benefit from a leading group of academics and an exciting international environment. Students may take the Master's as a professional terminal degree, or in preparation for a Ph.D. degree.
Summary of study programme
The programme lasts two academic years (120 ECTS) and includes the Master Thesis as well as practical training in an industrial or applied research environment.
The first year is aimed at providing a solid background on mechanics and numerical methods. The semester consists of a set of core modules (20 ECTS) complemented by transversal and entrepreneurship modules (10 ECTS). These core modules are taught jointly at UPC and UWS.
The second semester provides extra background in computational mechanics with a series of courses amounting to 15 ECTS into important aspects of solid and fluid mechanics (i.e. plasticity, nonlinear continuum mechanics, dynamics, computational fluid dynamics). The semester ends with a Practical Training (15 ECTS) module, which is an essential element in the curriculum providing students with the opportunity to apply their skills and knowledge in computational mechanics in an industrial context. Students can select to follow the first year either at UPC or UWS.
The second year is pursued in the second host institution. They are organised into minors, consisting of a set of modules emphasising, or bearing particular relevance to, a specific area in computational mechanics. The student must select a set of modules adding up to 25 ECTS. Additionally, the student will enrol on 5 ECTS in transversal skills. . The programme concludes with a Masters thesis (30 ECTS) which should help the student to deepen his/her knowledge within a particular topic of computational mechanics, usually set at the frontier of cutting-edge computational mechanics technology.
The EMMC in Computational Mechanics aims to provide the students with the skills for the modelling, formulation, analysis and implementation of simulation tools for advanced engineering problems:
The students follow the Master's programme at two of the four partner institutions: the first year at UPC or UWS, and the second year at UPC, UWS, ECN or US different from the institution attended during the first term. Students from Spain and Uk are allowed to split the first year one semester at UPC and one semester at UWS.
The Masters programme consists two parts. It amounts to 120 ECTS credits and lasts for two academic years. Part I (first and second semesters) provides basic background in computational mechanics as well as a practical training component. Part II (third and fourth semesters) includes a series of specialised modules into a particular field of computational mechanics and a research/dissertation component.
The European Credit Transfer System (ECTS) is a student centered system based on the student workload required to achieve the objectives of a program, objectives specified in terms of learning outcomes and competences to be acquired.
The first semester provides fundamental background in computational mechanics with four core modules amounting to 20 ECTS, as well as transversal modules amounting to 10 ECTS, resulting in a final total of 30 ECTS.
The second semester provides extra background in computational mechanics with a series of courses amounting to 15 ECTS into important aspects of solid and fluid mechanics (i.e. plasticity, nonlinear continuum mechanics, dynamics, computational fluid dynamics). The semester ends with a Practical Training (15 ECTS) module, which is an essential element in the curriculum providing students with the opportunity to apply their skills and knowledge in computational mechanics in an industrial context.
Practical training is an essential element in the curriculum of the students and will be developed during the second academic year (15 ECTS). Professional or R+D profiles will be provided in industry or in applied research organizations in Europe which are in close collaboration with all institutions in the consortium.This training can be closely related to the master thesis and will provide inside knowledge in computational mechanics project development and management.
The third and fourth semesters are pursued in the second host institution. They are organised into minors, consisting of a set of modules emphasising, or bearing particular relevance to, a specific area in computational mechanics. The student must choose a partner institution for the second academic year, different from that where he/she conducted the first academic year. In agreement with the local requirements of the second institution, the student must select a set of modules adding up to 25 ECTS. Additionally, the student will enrol on 5 ECTS in transversal skills (i.e. "strategic project management", "communication skills for engineers").
The Masters Thesis (30 ECTS) can be research or industry oriented. The student carries out the thesis on a topic related to one of his/her areas of specialisation. The Master thesis includes a seminar series in computational mechanics developed in each Institution during the 2nd academic year (see for instance http://www.swan.ac.uk/engineering/seminarseries/c2ec/ ). These seminars will be compulsory for senior students.
The thesis should be submitted by the end of the second academic session. Once completed, the Masters thesis will be defended in front of a local committee, with the external assessment of at least one faculty member of another institution of the consortium. The final mark of the thesis will be awarded by the Board of Studies of the Masters programme during its summer meeting.
An international consortium of four leading European Universities in cooperation with the International Center for Numerical Methods in Engineering (CIMNE). All institutions of the consortium have a long standing tradition in the field of Computational Mechanics, with the highest standards both in research and teaching.
CIMNE is an autonomous international research organization specialized in the development and application of numerical methods in engineering (www.cimne.com)
France propose a world-class higher education institutions in an international environment. The application process for international students is exactly the same as it is for french students but it's indispensable to contact with a platform “Etude in France” and the regional department of “Campus France” (a public institution in charge of promoting higher education and managing the reception and international mobility of students).
Higher education is thus provided by two main types of institution: universities and "grandes écoles". «Grandes écoles» are the most reputable of the French education system. To win admission students get in by competitive examination, the institutions are relatively small, and classes in them small too. French universities are open to all “bacheliers”, or a student whom has passed their baccalaureate, and it's also easier to apply for the university program.
It is necessary to point out that the European local or an international student have to complete the application process in its entirety, as well as submit all documentation at the time of submission so the procces suit to the ground for the students all over the world. Students are eligible for grants and other financial assistance from the governement to support study in France.
The Consortium offers full scholarships to third-country and European students. In addition, a limited number of grants offering total or partial support to cover the course tuition fees are available.