Best 104 Master Programs in Mechanical Engineering 2019
A masters is awarded to students who have completed postgraduate level study in a specific field of study or area of professional practice while demonstrating a high level of mastery during the process.
Mechanical engineering is a diverse engineering discipline, as it is the knowledge that is necessary to take a product from idea to the marketplace. The skills necessary to accomplish this include the ability to design for functionality, aesthetics and the environment the product will be used in.
Through the university program "SpaceTech", participants are trained by experts in the fields of Space Systems and Business Engineering and prepared to take on key roles
The aerospace sector is a fast-growing market. Multinational corporations are conducting research on cutting-edge technology to successfully develop new products and services. Some examples include satellite services in the communication, navigation and remote sensing fields, aerospace transportation, space tourism or the future mining of extraterrestrial materials. Through the university program "SpaceTech", participants are trained by experts in the fields of Space Systems and Business Engineering and prepared to take on key roles and management responsibilities in the international environment of the space industry.
Next start: March 2020
Duration: 3 semesters (18 months)
Final degree: Master of Engineering (MEng) in Space Systems and Business Engineering
ECTS credits: 90
Language of instruction: English
Participation fee: € 34,000 (VAT free)Self-payers: please contact us to evaluate the availability of stipends/scholarships
The participation fee does not cover costs for travel, accommodation, and meals.
Number of participants: limited to 18
Course location: European Space Centers:
TU Graz, Austria (Apr 2020)
CNES Toulouse, France (Jul 2020)
NASA GSFC Greenbelt, MD, USA (Oct 2020)
DLR GSOC Munich, Germany (Jan 2021)
ESA ESRIN Frascati, Italy (Apr 2021)
ESA ESTEC Noordwijk, Netherlands (Jun 2021)
TU Graz, Austria (Sep 2021)
The Department of Mechanical Engineering takes an interdisciplinary approach to maximize the students' success through a mixture of cutting-edge research, diversified cou
Thank you for your interest in the Master's degree program in Mechanical Engineering at Arkansas Tech University. 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. As a new Mechanical Engineering Master's student, you have two program options: coursework and research project.
The program requires 36 course credits for completion, and it gives the students the flexibility to select a degree plan that is customized to their goals. Student’s success is the prime goal of the department and we strive to provide the best opportunities for growth and professional development of our students....
The aim of this two-year program is to provide students with solid knowledge of mechanical engineering (mechanical design, production and plant maintenance, logistics and
The aim of this two-year program is to provide students with solid knowledge of mechanical engineering (mechanical design, production and plant maintenance, logistics and production planning, etc.) and its related fields. To this end, the course aims to form a modern mechanical engineer, able to integrate traditionally separated specialized fields, such as the mechanical design, mechatronics, automation, management and logistics ones. The degree course splits into two different branches in which students can specialize: “Mechanics and Automation” and “Logistics and Production”.
Short description of the International Study Program
The Master has been established at the Faculty of Science and Technology of the Free University of Bolzano (Unibz). The Master is offered singularly from the Free University of Bolzano and has an international character. The path “Logistics and Production” is offered in collaboration with the Otto-von Guericke University of Magdeburg (OvGU) and allows obtaining a "double degree"....
Advanced Computational Mechanics (ACM) is addressed for students who want to increase their knowledge in mechanics and computer application in the design of structures (C
Advanced Computational Mechanics (ACM) is addressed for students who want to increase their knowledge in mechanics and computer application in the design of structures (CAD, FEM), material design (CAMD), material selection (CAMS), manufacturing (CAM) and monitoring of machines.
Program of studies:
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),
Object-oriented 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)
The Advanced Master course AMPAS is designed by IMT Mines Albi and ISAE-Supaero with the support of aeronautical industry partners.
Advanced Manufacturing Processes for Aeronautical Structures (AMPAS)
A booming industry
After a short recession period, the Aeronautical industry market is facing a rapid and continuous increase worldwide as shown by the record-breaking contracts recently signed by both Airbus and Boeing. These two industry leaders forecast an increase of close to 5% in activity over the next years and estimations indicate that the annual increase of large commercial airplanes will induce a doubling of the number of aircraft by 2030.
Nearly sixty percent of the turnover is subcontracted all over the world and concerns mostly production and manufacturing activities. As a consequence, most aeronautical subcontracting companies will have to increase their production rates but also to keep up to date with technological changes; moving from metallic processes toward composite materials processes. Moreover, the aircraft manufacturers have changed their supply chain structure in the last years, and subcontractors are now required to manage more complex parts and to take over, on their own, the qualification processes....
Stevens Institute of Technology - Graduate Studies
The mechanical engineering master’s program at Stevens gives you an edge in an increasingly competitive profession where a mastery of research, design, production and tes
Build the future in a program engineered to promote your success.
The mechanical engineering master’s program at Stevens gives you an edge in an increasingly competitive profession where a mastery of research, design, production and testing skills is just as important as the next big idea.
This program focuses on techniques that enable the consistent creation of products through a science-based understanding of engineering materials and manufacturing processes and prepares you to solve complex engineering problems, position emerging technologies, lead the development of high-quality products, manage projects and maintain exacting standards in an ever-evolving economy....
Mechatronics is a synergistic and integrated process of several sciences and skills (among which control and computer sciences, electronics, mechanics) which allows to co
Mechatronics is a synergistic and integrated process of several sciences and skills (among which control and computer sciences, electronics, mechanics) which allows to conceive and to design products and systems with augmented or improved functionality and which requires to consider the conception of the product or system in its overall lifecycle in a cooperative interdisciplinary approach.
After having completed this program, the students are being prepared for Ph.D. studies. They can also work as engineers or occupy high level technical and scientific positions in research centers, in research and development departments and in specialized consulting firms.
The French and European space programmes are economically and strategically important for the future: the development of access to space, with applications such as Earth
The French and European space programmes are economically and strategically important for the future: the development of access to space, with applications such as Earth observation or telecommunications, activities related to research in a zero-gravity environment, the presence of man in space, the continuation of development of the large families of satellites such as Spot, development of mini and micro-satellites, preparation of various interplanetary probes and the missions to Mars, all of these are subjects that are currently being developed. Becoming an engineer in the space sector means working on the construction of launchers, spacecraft (satellites, probes, shuttles, orbital stations) and thrusters, and also taking part in the launch and operation of satellites....
University of Maryland, A. James Clark School of Engineering
Our aerospace program prepares graduates to design, develop, and test aircraft, spacecraft, and missiles and supervise their manufacture. Students earning a Masters of En
A bachelor's degree, GPA of 3.0 or better, in Aerospace Engineering or a related engineering field from an accredited institution.
Courses in mathematics (Calculus I, II, III, & Differential Equations), and Thermodynamics are required to be considered for admission.
Completed applications are reviewed and considered for admission on a case-by-case basis.
Graduate Program Prerequisites
The Aerospace Engineering Graduate Program encourages applicants with other related engineering backgrounds to apply to our program. The Graduate Admissions Committee may recommend that an incoming student take selected undergraduate courses before the core courses.
The Graduate School requires students to maintain a 3.0 GPA in all courses for credit since enrollment. Prerequisite courses are listed to assure that students have the necessary academic background before enrolling in a given course. The ENAE 283 course ( Introduction to Aerospace Systems) is required for students without an aerospace engineering background....
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
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)....
Our Master program (2 years) is fully taught in English (in Paris only). During these 2 years, students can individualize their courses through options and scientific maj
IPSA: Aeronautics and Space Graduate School of Engineering
IPSA is an engineering school offering a 5-year syllabus (accreditated by the CTI) 100% dedicated to Aeronautics and Space. The interest in « everything aerospace » is a particular source of motivation in the school and the passion is shared by both students and lecturers. IPSA is located in Paris and Toulouse.
Our Bachelor program (3 years) is taught in French (in Paris and Toulouse) and initiates students into the aerospace field. The subjects studies are Mathematics, Physics, Aeronautical Sciences, Computer sciences, and Electronics. In their 3rd year, students can specialize in aerospace systems or aerospace vehicles....
Internationality is a very important feature at Esslingen University. We offer the opportunity for students from diverse cultural backgrounds to study, work and live toge
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 development, 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...
The aim of the program is to have the student prepare for participation in advanced product development or research within mechanical engineering. The aim is that the stu
Master’s Programme in Mechanical Engineering - Structural Engineering (120 ECTS)
The aim of the program is to have the student prepare for participation in advanced product development or research within mechanical engineering. The aim is that the student after completed degree should master a coordinated working method at analysis for decision support in the product development process, the extensive modules of virtual and physical modelling, simulation and experimental investigation and optimisation.
A coordinated working method of analysis for decision support.
The student is expected to inform herself/himself about current field-relevant research and considerably increase her/his ability to communicate her/his own contributions with scientific facts and relations both orally and in writing by means of modern tools for visualisation and documentation....
This degree is particularly well-suited for students who wish to study part-time, for those interested in updating their technical skills, or for those not focused on a r
The Master of Engineering in Mechanical Engineering is a 30 credit hour degree program. It is intended to be a terminal degree program designed for those who wish to become a leader in the mechanical engineering field.
This degree is particularly well-suited for students who wish to study part-time, for those interested in updating their technical skills, or for those not focused on a research-oriented Master of Science thesis. A conventional thesis is not required for the program. In its place, students complete a capstone experience, which may be a design project leadership course, a well-organized and carefully chosen industrial internship, or a project with a paper option. A research methods course may also fulfill the capstone experience....
The international master on Control for Green Mechatronics (GREEM), within the Robotics and Control mention of the French Ministry of Education, promotes a high-quality e
The international master on Control for Green Mechatronics (GREEM), within the Robotics and Control mention of the French Ministry of Education, promotes a high-quality educational offer in the area of design and control of mechatronic systems with a particular focus on two points: their functional performances and their energy efficiency.
The consideration of the energy efficiency makes the GREEM international master very singular and very innovative and makes it answer a real actual societal matter which is the effect of technological devices to the ecology.
After graduation, the students will have mastered the area of green mechatronics where they will be able to design new or re-design existing mechatronic systems, to model and simulate them, to calculate controllers for their automation and their performances improvement, and to set up networks of mechatronic systems, all together with consideration of the energy efficiency....