The MSc, or Master of Science, is a popular Master’s degree designation. Internationally recognized, the MSc is typically awarded after about five to six years of rigorous study in what is usually a science-based field.
Mechanical engineers almost always need to have the ability to analyze and design objects and systems with motion. This includes small individual parts, like micro-sensors, and large complex machines, like control systems for airplanes and spacecraft.
Top Master of Science Programs in Mechanical Engineering in Turkey 2019
Welcome to the Manufacturing Engineering Program at Sabancı University. Our recently funded program offers M.S. and Ph.D. degrees in Advanced Manufacturing technologies and provides opportunities for continuing education to support our industry partners to educate and enhance their workforce. [+]
Welcome to the Manufacturing Engineering Program at Sabancı University. Our recently funded program offers M.S. and Ph.D. degrees in Advanced Manufacturing technologies and provides opportunities for continuing education to support our industry partners to educate and enhance their workforce. Our unique and interdisciplinary program is designed for individuals who wish to achieve competency in the effective integration of manufacturing, computing, material processing and production functions in any manufacturing enterprise.
Our faculty members come from diverse professional and academic backgrounds with expertise in Manufacturing, Mechanical, Industrial, Mechatronics and Materials Science, and Engineering. Their research areas include manufacturing processes and equipment, additive manufacturing (3D printing), biomanufacturing, computer-aided design and manufacturing, integrated manufacturing systems, nano-micro manufacturing, composite and polymer manufacturing, and manufacturing and technology strategies.... [-]
Mechatronics program at Sabanci University aims to educate creative individuals who can apply ideas from all such disciplines to design today's complex systems. [+]
Mechatronics is the design methodology of systems based on multidisciplinary engineering approaches. Most modern systems such as consumer products, manufacturing machines, or even exotic measurement devices must be designed to comply with several constraints at the same time, including complex behavior, mechanical and electronic precision, low cost, low power consumption, environmental friendliness, networked operation, smart interaction with users and work in uncertain environments. Their design requires engineers who are fluent in such disciplines as electronics, mechanics, computers, control, and other areas like optics and material science.
Mechatronics program at Sabanci University aims to educate creative individuals who can apply ideas from all such disciplines to design today's complex systems. The approach is supported by a curriculum seamlessly integrating the diverse disciplines, while being hands-on and research oriented from the undergraduate education, utilizing our comprehensive research infrastruture used for the industrial projects and fundamental research conducted by the program members.... [-]
Our research program in mechanical engineering responds to these trends and focuses on basic research related to materials science and process engineering, product design, and information integrated manufacturing processes. In doing so applications to different physical processes are studied (e.g. energy systems, bioengineering, metal forming, polymer processing, discrete part manufacturing to name a few). [+]
M.Sc. in Mechanical Engineering
Innovation in product design and manufacturing has become a major driver for industrial competitiveness and profitability in recent years. As enabling technologies become more easily accessible, engineers are faced with increasing demands for designing and producing more complex mechanical devices to serve the needs of the society.
Next-generation engineering products will be 'smart' with many functionalities; they will be made of new materials; they will increase energy efficiency and reduce environmental impact; they will vary in size from nano to mega scales, and they will be more closely integrated with information processing systems. Also as mechanical systems are becoming increasingly complex to analyze and expensive to experiment, more emphasis will have to be placed on computer-aided analysis, design, verification, and manufacturing.... [-]