In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.
Mechanical engineering is a wide topic that includes the manufacturing of all things. The science needed to produce individual parts of machines and systems, and the knowledge necessary to make those parts work in concert, are included in mechanical engineering.
Masters Degree in Mechanical Engineering
The Mechanical Engineering Cycle takes place in six semesters, one of them being a core curriculum and aims to train engineers able to work in the fields of design, implementation of products in the field of mechanics and Areas of energy and renewable energies. [+]
This is a post-baccalaureate internship program leading to the professional degree of master of engineering. The objective of the program is to provide the engineering BS graduate the means for earning a terminal master’s degree. [+]
Master of Engineering in Mechanical Engineering is a post-baccalaureate internship program leading to the professional degree of master of engineering. The objective of the program is to provide the engineering BS graduate the means for earning a terminal master’s degree. The capstone experience for the master of engineering degree may be a course design project, a well-organized and carefully chosen industrial internship, or an independent study project in place of the conventional thesis requirement of an MS degree. This master’s degree is particularly well-suited to students who wish to study part time, those interested in updating their technical skills, and those not focused on a research-oriented master of science thesis.The program consists of core courses (12 credit hours), concentration courses (16 credit hours), and elective courses (20 credit hours).... [-]
The Advanced Master course AMPAS, is designed by Mines Albi and ISAE with the support of aeronautical industry partners. [+]
The second cycle in Mechatronics Engineering aims to empower its students with 3 skill levels. [+]
The department of Mechanical Engineering takes an interdisciplinary approach to maximize the students success through a mixture of cutting-edge research, diversified coursework, and world class faculty. The department is continuously growing and has maintained a consistent leadership as one of the top Mechanical Engineering programs in the state of Arkansas. [+]
The master’s program “Aircraft Propulsion and Power Systems”, implemented within the scope of the “Aircraft Engines” area, boasts international status and has been developed in conjunction with the Nanjing University of Aeronautics and Astronautics (China). The program is aimed at training high-caliber specialists in the design of aviation gas-turbine engines and power-system drives. [+]
This Master is aimed at students who wish to deepen their skills in modelling and numerical simulation of mechanical models, both fluid and solid. [+]
Master of Engineering in Computational Mechanics
This Master is internationally recognized and accredited by the French Ministry of Higher Education. The quality of its courses has been recognized in the prestigious Erasmus Mundus framework of the European Commission
Language of teaching
Courses fully taught in English during the two years.
The course covers the modelling of complex mechanical systems involving a possible coupling of different physics at different scales.
In more general terms, the course provides solid training in advanced techniques in scientific computing at the interface between scientific disciplines for the modelling of engineering problems. ... [-]
These programs are designed to meet the needs of industry by offering young engineers the critical skills needed to be successful in an engineering career. [+]
The aim of this two-year programme is to provide students with solid knowledge about mechanical engineering (mechanical design, production and plant maintenance, logistics and production planning, etc.) and its related fields. [+]
Master of Engineering in Reliability [+]
Internationality is a very important feature at Esslingen University. We offer the opportunity for students from diverse cultural backgrounds to study, work and live together. [+]
MEng in Design and Development for Mechanical and Automotive Engineering
Internationality is a very important feature of the Esslingen University Graduate School. We have students from diverse cultural backgrounds studying, working and living together. This intercultural exchange and cooperation is a strong added value for our master’s students.
Esslingen University maintains regular contact with many prime international companies. This is important for the devopment, planning and teaching of our programs, and is of great benefit during the students' practical semester. The Esslingen University master courses are regularly accredited by renowned associations such as the FIBAA and ASIIN. ESSLINGEN – AN IDEAL PLACE TO STUDY... [-]
A Master of Mechanical Engineering is a degree program that applies the principles of engineering, physics, and materials science for the design, analysis, manufacturing, and maintenance of mechanical systems. [+]
Program description: Advanced Computational Mechanics (ACM) is addressed for students who want to increase their knowledge in mechanics and computer application in design of structures (CAD, FEM), material design (CAMD), material selection (CAMS), manufacturing (CAM) and monitoring of machines. Program of studies: Regular: Advanced mathematics (4 ECTS), Engineering mathematics II (2 ECTS), Solid state physics (2 ECTS), Continuum mechanics (2 ECTS), Analytical mechanics (2 ECTS), Numerical methods II (2 ECTS), Objectoriented programming (1 ECTS), Material science II (4 ECTS), Modern structural materials (2 ECTS), Advanced modeling of materials and structures (5 ECTS), Modeling in machine design (4 ECTS), Integrated processing systems (3 ECTS), Advanced FEM modeling (4 ECTS), Advanced strength of materials (2 ECTS), Dynamics of mechanical systems (2 ECTS), Experimental mechanics of solids (2 ECTS), Individual project (5 ECTS), Seminar (3 ECTS), Final project (20 ECTS) Total: 675 h [+]
The cornerstones of this programme are mechanical design and energy conversion. The former starts with an idea that is shaped in a graphical design and results in a finished product through choice of materials, simulation and production technique. Energy conversion is aimed at all aspects of energy efficiency in this process and ranges in practice from electrical controls and automation to thermal power plants, combustion engines, climatisation, etc. [+]
The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. [+]