University of York

University of York

Master of Engineering Honours in Micro-mechanical Engineering with a year in industry

The Master of Engineering Honours in Micro-mechanical Engineering with a year in industry in Engineering and Technology is offered by University of York.

Program Length: 5 YEARS.

Master of Engineering Honours in Micro-mechanical Engineering with a year in industry offered by the University of York

Manipulate materials to change the way we use them.


Micro-mechanical technology is the driving force behind hundreds of devices we use everyday. 

Fitness trackers, airbags and smartphones all rely on a combination of electronic and mechanical devices and systems to carry out some of their key functions.

In this innovative course, you'll be at the cutting edge of research into micro-electronic and micro-mechanical technology, manipulating materials to devise new solutions to real-world engineering challenges.

They build employability into every aspect of our courses. Alongside developing an in-depth understanding of your subject, you'll gain a range of transferable skills that will allow you to take on a career in a number of sectors and thrive in management roles. 

Course content
At the beginning of your course, you'll develop a solid foundation in mechanical, electrical and electronic principles and programming.

You'll take part in extensive laboratory sessions and hands-on project work, during which you'll have the chance to build an innovative medical device, a maze-solving robot and an autonomous underwater vehicle.

In your final two years, you'll develop a specialist knowledge of micro-mechanical engineering, focussing on the intricacies of working with miniaturised technology. You'll also be able to choose a number of option modules, meaning you can learn more about other aspects of the discipline. 

Study abroad
There are opportunities for you to spend time abroad during your course:
Explore global opportunities

Year 1
You'll study five core modules covering the properties of engineering materials and how these properties are used in useful applications, such as mechanical and electrical design. Semiconductors provide the basis of microcontrollers which you will learn to program, controlling machinery. This new knowledge will be used to build an innovative medical device in groups as part of a hands-on practical project.

Stage 1 Project (20 credits)

Core modules
Mathematics (30 credits)
Introduction to Electronics and Electrical Circuits (20 credits). 
Introduction to Electrical Machines (10 credits)
Programming for Microcontrollers (10 credits)
Materials and Mechanics (30 credits)

Academic integrity module
In addition to the above you will also need to complete the online Academic Integrity module.

Year 2
You'll study five further core modules introducing thermodynamics and fluid dynamics, illustrating the processes that occur within mechanical machinery. Power electrotechnology is studied further and sensors are introduced to increase your design and control knowledge. Manufacturing processes are also studied and practised to increase your ingenuity for developing a more sophisticated group project.

Stage 2 Project (30 credits)

Core modules

Engineering Mathematics, Signals and Systems (20 credits)

Manufacturing and Fabrication (20 credits)
This module introduces many of the processes that are used for creating parts, including machining (turning, milling, boring, grinding); EDM and etching; welding and brazing; adhesives and fasteners; forming (bending, stamping); casting and moulding; and additive manufacturing.

Thermo-dynamics and Fluid Dynamics (20 credits)
This module includes an introduction to the flow of fluids (fluid dynamics) and the flow of energy (thermodynamics), both fundamental concepts to a wide range of engineering systems.

Sensors, Noise and Filters (20 credits)
You’ll learn about the processing and digitisation of electronic signals from sensors. This module includes techniques for analysing AC circuits using phasors and complex impedances, the effects of non-ideal passive components, and the design of filters. You’ll look at examples of several common sensor types; including pressure, light, proximity and temperature sensors.

AC Machines and Power Electronics (10 credits)
You’ll develop your understanding of electrical machines by introducing the operational principles and characteristics of AC motors and generators, three-phase circuits and complex power. You’ll also look at the design and operation of common AC-DC and DC-AC power converters.

Year 3
In Year 3, you'll study six core modules which allow you to explore the world of micro-electromechanical engineering further, including Mechanics and MEMS, and MEMS: Materials Manufacturing and Measurement. To apply your growing knowledge you will design a robotic water collection and analysis system as part of a group project. You will also be able to choose two further option modules from our broad range to complement your specialist learning.

Stage 3 Project (40 credits)

Core modules
Mechanics and MEMS (10 credits) 
Control (10 credits)
Management (10 credits)
MEMS: Materials, Manufacturing and Measurement (10 credits)
Composite Materials (10 credits)
Microfluidics (10 credits)

Option modules
Robotics Design and Construction (10 credits)
Biomedical Engineering (10 credits)
State Space and Digital Control (10 credits)
Accounting and Finance (10 credits)
Human-Robot Interaction (10 credits)

Year 4 (in industry year)
In Year 4 you'll work in industry. You can choose to work in the UK or in Europe.

This will develop your professional, time management and interpersonal skills in a structured environment, and gives you a good opportunity to network for your future career. You may find that you want to continue work from your year in industry in your MEng Individual Project.

Your year in industry will be assessed through two short written reports and a viva.

Year 5
In Year 5, you'll complete a major individual project drawing on all of the skills and knowledge assimilated so far. You'll continue with three core modules relating to your specialism, including NEMS (Nanoelectromechanical systems) and Smart Materials. You'll also have a free choice of one further option module to allow you to tailor your programme to your skills, interests and career goals.

Stage 4 Individual Project (80 credits)

Core modules
NEMS (10 credits)
Smart Materials (10 credits)
Low Carbon Technologies (10 credits)

Option modules
Future Healthcare Engineering Technologies (10 credits)
Skills for Business Leadership (10 credits)
Sensors and Instrumentation (10 credits)
Strategic Management (10 credits)
Advanced Control (10 credits)



Locations where you can study Master of Engineering Honours in Micro-mechanical Engineering with a year in industry en University of York


Schools where you can study Master of Engineering Honours in Micro-mechanical Engineering with a year in industry en University of York

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