Opis tego kierunku w języku polskim znajdziesz tu>>
So much of our everyday life is influenced by engineered products. Learn to design, develop, operate and manufacture products and parts in our specialist labs in Chelmsford. Mechanical engineering opens up a wide range of career opportunities and as a Master of Engineering you’ll graduate in a prime position to take advantage of being a Chartered Engineer.
This four-year MEng Mechanical Engineering course, designed in accordance with the current requirements of higher education Quality Assurance Agency (QAA) and relevant industry and the professional bodies such as IMechE and IET, will prepare you for a career in a wide range of engineering leadership positions.
You’ll benefit from dedicated support from our experienced staff, who are both experienced professionals from industry and expert researchers. Building on our BEng Mechanical Engineering degree, currently ranked 1st in the UK for course satisfaction and 7th overall in this year’s Guardian subject league table, you’ll experience the very best the engineering education sector has to offer.
You will undertake a wide range of laboratory work exploring manufacturing, 3D printing, thermodynamics, dynamics, and structural analysis, so you can analyse, calculate, model, and experience your proposed concepts. As a result of this integrated learning you’ll develop analytical and creative problem-solving skills which are highly valued by employers.
This MEng course differs from the BEng as it has an increased emphasis on project work, which you’ll experience as an individual and as part of a team. You’ll also undertake an integrated Major Group Project in your final year where you’ll look to solve real world industrial problems and as a result, benefit from working with potential future employers. You’ll also take an individual research module in year 3 to boost your self-managed learning and research skills. As a MEng student you’ll develop valuable commercial skills in areas such as marketing, Intellectual Property, team working dynamics, leadership, as well as engineering project management.
Our MEng Mechanical Engineering course leads students 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.
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.The average salary for a mechanical engineer is £29,987* per year which significantly increases as you progress in to senior design and project management roles. *Payscale.com
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.
Modules & Assessment
Year 1: Level 4
IT and Research
Introduction to Engineering Materials
Introduction to Mechatronics
Electronic Principles for Robotics
Mathematics for Engineering 1
Year 2: Level 5
Dynamics and Fluid Mechanics
Statistics and Process Quality Assurance
Mathematics for Engineers 2
Computer-Aided Solid Modelling
Materials and Processes
Year 3: Level 6
Project Management for Technologists
Modelling and Simulation for Operations Management
Research Methods and Individual Project (Civil and Mechanical Engineering)
Year 4: Level 7
Computer Aided Engineering Analysis
Automation and Robotics
Computational Fluid Dynamics
Advanced Materials and Structural Integrity
Innovative Product Design and Manufacture
We will use a range of assessment methods to check your academic and practical progress throughout your study. These includes exams, essays and reports, work related to practical classes and demonstrations, log books, presentations, computer models, and posters.
Our focus in assessment is your learning, therefore we thrive to have a clear brief of assessment in all modules. We’ll support you through each semester with formative feedback on your progress and provide a fair assessment procedure.
Where you’ll study
The Faculty of Science & Engineering is one of the largest of the four faculties at Anglia Ruskin University. Whether you choose to study with us full-time or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, BSc, MSc, PhD or professional doctorate.
Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.
Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science, technology and engineering fields. This is key to all of our futures.