Design is in everything that we use. Explore how sometimes the smallest change can makes life easier. Studying our new MEng Additive Manufacturing Engineering degree course at ARU will take you through the fundamentals of mechanical engineering, covering areas such as 3D printing. You'll be ready to work towards Chartered Engineer (CEng) status after graduation.
Engineering is all about taking a product or system and looking at how it can be improved, whether it is in the development, processing, design, or even the materials used. Our new four-year MEng Additive Manufacturing Engineering degree course has been created with a focus on project-based learning, allowing you to take your in-class theory and apply it in a hands-on project module that will run throughout the year.
You will study alongside other students in the various areas of mechanical engineering, specialising in additive manufacturing in your final year and in certain modules throughout your course.
By studying our MEng Additive Manufacturing Engineering degree course, you will learn through a wide range of lab sessions, exploring manufacturing, 3D printing, thermodynamics, dynamics, and structural analysis so you can analyse, calculate, model, and experience your proposed concepts. As a part of your project-based learning you will undertake group work where you will be in a team of multi-disciplined students from across the different areas of mechanical engineering. This integrated learning will allow you to develop skills that are invaluable to future employers, including analytical and creative problem-solving skills. You’ll also benefit from dedicated support from our experienced staff, who are both experienced professionals from industry and expert researchers.
Our MEng Additive Manufacturing Engineering degree course leads you through computer based advanced design, simulation and modelling practice in various topics including computational engineering, fluid dynamics, stress analysis, and industrial management. You’ll benefit from using our workshop and laboratory facilities including CAD/CAM and engineering computer modelling centre, industrial-scale CNC milling and lathe machines, metal and plastic rapid prototyping machines, scanning electronic microscope, Instron bi-axial fatigue-testing machine, tensile-testing machine, material-preparation facilities, welding equipment, electronic testing and measuring equipment such as oscilloscopes and signal-generating and testing facilities, wind tunnel, air compressors, steam engine and many more laboratory facilities used during course and in individual and group major projects.
What is the difference between a BEng and an MEng course?
A BEng course will enable to you apply for Incorporated Engineer (IEng) status at the end of your course. To apply for Chartered Engineer (CEng) status you will also need to complete a Masters degree.
A four-year MEng course is a three-year undergraduate degree with a one-year Masters degree in one course. On completing an MEng course you are able to apply directly for CEng status.
Students completing an IMechE accredited degree are deemed to have met, part or all, of the academic requirements for registration as a Chartered or Incorporated Engineer and are in a strong position to move on to achieve professional engineering status after a period of initial professional development in industry.
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Year 1 (level 4) modules
Design and Manufacturing Project
Engineering Skills 1
Introduction to Mechanical Engineering
Materials and Mechanical Structures
Year 2 (level 5) modules
Product Development and Quality Engineering Project
Ruskin Module
Thermofluids
Advanced Engineering Skills
Year 3 (level 6) modules
Engineering Simulation and Optimisation Project
Vibration and Control
Numerical Methods in Engineering
Mechatronics
Year 4 (level 7) modules
Additive Manufacturing Strategy
Post-Processing of Additively Manufactured Products
Additive Manufacturing Group Project
Individual Major Project
Mechanical engineering is possibly the most enabling discipline in engineering, dealing with materials, static and dynamic analysis, structural design, renewable energies, thermal engineering, product quality assurance, and manufacturing.
You'll have the opportunity to work in industries such as aerospace, automotive, medical, renewable energies, 3D printing, and almost any product development and product-related application.
We work with employers to make sure you graduate with the knowledge, skills and abilities they need. They help us review what we teach and how we teach it – and they offer hands-on, practical opportunities to learn through work-based projects, internships or placements.
In addition to our links with industry, our Employability Service and Placements Team provide numerous opportunities to gain experience and employment through internships and career fairs. You can also take advantage of mentoring schemes, CV and interview preparation sessions.
Insurance – Single: 300 GBP per year