Mechanical Engineering
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Whether it’s a dentist’s drill or a tunnel drill, an automobile assembly line or a CD player, somewhere in the course of its development, a mechanical engineer has had a hand in its design. Mechanical engineers design, develop and build an enormous range of technical systems and mechanisms for industry and consumers. They have an important hand as well in stimulating the development of bio-systems, and micro- and nano-scale devices. Innovations in these areas are of vital importance in efforts to reduce energy consumption, to ease pressures on the environment, and to build a more sustainable society.What you will learnAt TU Delft, the goal of the MSc Programme in Mechanical Engineering is to give students a broad, in-depth understanding of all mechanical engineering disciplines. The programme trains engineers to handle the entire process of innovative thinking, design, manufacturing and operation.NOTE: The tracks of the Master’s programme Mechanical Engineering will all have a common part in the academic year 2016-2017. This consists of four courses of a total of 16 EC; Control Systems Design (3 EC), Heat Transfer (3 EC), Nonlinear Mechanics (4 EC) and Physics &Measurement (6 EC).Tracks:-BioMechanical DesignBioMechanical Design is the design of systems meant for interaction with biological systems (such as the human body), or the design of systems that follow the principles of biological systems (biomimetics). Examples are telemanipulation systems (surgical robots, offshore and space robots). The development and improvement of surgical instruments and aids for surgeons are among the key areas of investigation in the BioMechanical Design (BMD) track.-Transport Engineering and LogisticsReliable systems for moving people and goods are cornerstones of modern society. Transport Engineering (TE) focuses on the sustainable and effective development, design, construction and operation of marine and ground transport systems. Often this includes the integration of different modes of transportation. It also addresses such issues as mechanical and energy supply and conversion systems on ships.-Energy & Process TechnologyEnergy & Process Technology gives students the technological knowledge and the theoretical, numerical and experimental skills to play an active role in the development of innovative new energy and process technologies. Students study key basic disciplines, including thermodynamics, fluid dynamics, process modelling and simulation, and process equipment design, giving them a sound theoretical basis in both process and energy engineering. Sustainability issues are addressed at all stages of the programme.-Opto-Mechatronics (pilot)This track will teach you the fundamentals of optics in theory and practice, as well as understanding of high-end optical systems combined with mechatronic system design treating dynamics and motion control.-High-Tech Engineering (former PME)The programme focuses on the fundamentals and design of high-tech systems and scientific instrumentation, with special attention to extreme precision and aspects of miniaturisation.-Vehicle EngineeringThe track Vehicle Engineering offers comprehensive education on automated driving, perception, dynamics and control, human factors and materials science. TU Delft develops its own automated vehicles and closely cooperates with the Automotive Industry. Courses are thereby based on the latest innovations, and masters assignments can be performed with experimental vehicles at TU Delft and partners.
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Admissions Requirements
A bachelor's degree in a related field is required, Motivation letter, CV. Undergraduate GPA is evaluated and typical requires at least a 3.0 average.
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Program Information
Delft
South Holland
2628 AS
Netherlands
- 2 years
- Full Time
- On Campus Learning
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