Bachelor of Engineering (Hons) in Mechatronics Engineering with Foundation Year

at University of Wolverhampton - Telford Campus United Kingdom

This course is for those who want to become design engineers in the Automotive industry, to undertake the challenges of modern vehicle design and work in industry as part of teams generating the next phase of road vehicles. As such the course consists of all the necessary elements to ensure its graduates are prepared for the various roles of the modern automotive engineer. Modern production technologies and conceptual design feature highly to promote an innovative design ethos, which will go towards fulfilling the increasingly regulated world of global vehicle design along with an understanding of legal requirements. Fuel efficiency is an area of increasing scrutiny in the consideration of new vehicles and can be achieved by a number of factors, including conceptual engine design, use of hybrid and renewable energies and the streamlining of vehicle aerodynamics, all of which feature heavily on this new bespoke course, designed to meet current and future needs.

Modern industry operates within a highly competitive global market, the adoption, exploration and management of technology across both design and manufacture and product simulation performance is at the forefront of providing successful business with the competitive edge needed to survive and grow. In addition, society is demanding that such business enterprises become evermore proactive in terms of adopting a more socially conscious approach, such as sustainability, across all their strategies and operations.

This course aims to develop your knowledge and understanding of modern engineering analysis and simulation tools and techniques in terms of product development and optimisation before manufacture. You will gain a comprehensive understanding of how various IT-based tools and systems function while also gaining insights into how these are implemented effectively, within the manufacturing and industrial sectors. You will be equipped to undertake cross-functional management roles and to evaluate how modern organisations can strategically exploit existing and emerging technologies. This reflects the growing demand for specialists with advanced skills and knowledge to drive forward effective, new, product development and their introduction across all of the major industrial sectors including automotive, aerospace and general manufacture.
The course will allow you acquire advanced knowledge and systematic understanding of contemporary finite element modelling techniques to analyse the behaviour of complex engineering systems and components. It will involve a comprehensive understanding of advanced solid mechanics and analytical techniques pertinent to product development and sustainability, and to apply these advanced techniques to synthesise novel designs of a range of engineering systems.

This course is for those who want to become design engineers in the Automotive industry, to undertake the challenges of modern vehicle design and work in industry as part of teams generating the next phase of road vehicles. As such the course consists of all the necessary elements to ensure its graduates are prepared for the various roles of the modern automotive engineer. Modern production technologies and conceptual design feature highly to promote an innovative design ethos, which will go towards fulfilling the increasingly regulated world of global vehicle design along with an understanding of legal requirements. Fuel efficiency is an area of increasing scrutiny in the consideration of new vehicles and can be achieved by a number of factors, including conceptual engine design, use of hybrid and renewable energies and the streamlining of vehicle aerodynamics, all of which feature heavily on this new bespoke course, designed to meet current and future needs.

The Mechanical Engineering course provides a comprehensive engineering education covering design, engineering mathematics and its application, the core concepts of mechanics, thermodynamics, structural dynamics, materials and the behaviour of fluids. As you progress through the course, you will also cover the principles of control systems, advanced materials and manufacturing processes including Additive Layer Manufacturing (ALM)/ 3D-printing of plastics and metals. You will use computer aided modelling, design and analysis software to validate product designs. Analysing the performance of materials and structures under in-service conditions through the use of finite element analysis and computational fluid dynamics is one highlight of the course. Accordingly, you will have the ability to use industry level FEA packages to analyse the performance of various engineering components.

Giving you a comprehensive engineering education combined with specialist knowledge of electro-mechanical systems, this course addresses industry’s demand for graduates who can integrate the principles and applications of mechanical, electrical and electronic engineering. You will learn to evaluate a range of solutions to engineering problems, and to select and apply appropriate solutions to engineering systems. You will use software packages to design, analyse, and evaluate system designs. As you progress, you will develop your integrative approach to designing electro-mechanical systems and become familiar with the techniques of digital signal processing. In the first year of the course, you will study engineering principles across a broad range of topics. The second year combines mechanical engineering subjects with areas such as embedded systems, digital and analogue electronics and electronic systems design. In the final year of the BEng, there is an emphasis on the design and analysis of electromechanical systems. You will also have the opportunity of preparing a business plan around a product that you have designed.  If you continue onto the MEng, you will study modules such as robotics sensors and control and condition monitoring, and undertake a substantive and integrative project that embraces much of what has been learnt in doing the course, as well as broadening subjects such as business management and accounting.

The Mechanical Engineering course provides for a comprehensive engineering education covering design, engineering mathematics and its application, the core concepts of mechanics, thermodynamics, structural dynamics, materials and the behaviour of fluids. As you progress through the course, you will also cover the principles of control systems, advanced materials and manufacturing processes including Additive Layer Manufacturing (ALM)/ 3D-printing of plastics and metals. You will use computer aided modelling, design and analysis software to validate product designs. Analysing the performance of materials and structures under in-service conditions through the use of finite element analysis and computational fluid dynamics is one highlight of the course. Accordingly, you will have the ability to use industry level FEA packages to analyse the performance of various engineering components.

This exciting new course has been developed with local manufacturing companies specifically to meet their needs.
 
The aim of this modern manufacturing course is to develop students with a sound knowledge of manufacturing and the underlying engineering principles that shape current approaches.
 
Graduates from the course will be able to demonstrate a wide range of skills applicable to all aspects of design and manufacture including systems analysis, product development and manufacture, costing, life cycle management and sustainability/environmental concerns.

The course is specifically designed for those already working in the manufacturing sector working with sponsors who are able to support the many work based learning elements integral to programme.
 
You will experience analytical and researched methods of working in a manufacturing environment.  They will learn how to assess and make efficiency improvements and how to work in a sustainable environment within current legislation.  Their dissertation will enable a level of specialisation to suit their industrial sponsors or could lead to further studies at postgraduate level.

This course is for those who want to become design engineers in the Automotive industry, to undertake the challenges of modern vehicle design and work in industry as part of teams generating the next phase of road vehicles. As such the course consists of all the necessary elements to ensure its graduates are prepared for the various roles of the modern automotive engineer. Modern production technologies and conceptual design feature highly to promote an innovative design ethos, which will go towards fulfilling the increasingly regulated world of global vehicle design along with an understanding of legal requirements. Fuel efficiency is an area of increasing scrutiny in the consideration of new vehicles and can be achieved by a number of factors, including conceptual engine design, use of hybrid and renewable energies and the streamlining of vehicle aerodynamics, all of which feature heavily on this new bespoke course, designed to meet current and future needs.

This course is for those who want to become design engineers in the Automotive industry, to undertake the challenges of modern vehicle design and work in industry as part of teams generating the next phase of road vehicles. As such the course consists of all the necessary elements to ensure its graduates are prepared for the various roles of the modern automotive engineer. Modern production technologies and conceptual design feature highly to promote an innovative design ethos, which will go towards fulfilling the increasingly regulated world of global vehicle design along with an understanding of legal requirements. Fuel efficiency is an area of increasing scrutiny in the consideration of new vehicles and can be achieved by a number of factors, including conceptual engine design, use of hybrid and renewable energies and the streamlining of vehicle aerodynamics, all of which feature heavily on this new bespoke course, designed to meet current and future needs.

In addition to gaining in-depth knowledge and understanding of the core subject, you will also gain experience of designing engineering systems that incorporate aspects of the mechanical and electrical/electronic technologies. In addition to experimental work at the University you will use Radar equipment at the DCAE Cosford Royal Air Force base - the same equipment used to train Air Force personnel.

The first year of study will cover a range of engineering topics and is aimed at providing a sound base for the following years. You will study Mathematics, and the underlying concepts of Electrical, Mechanical, Materials, and Production Engineering. You will undertake laboratory work and utilise your new production knowledge to build and test a design. In the second year, you will learn about Telecommunications and Signal Processing, Electronic Design, and Control Systems. You will also study Engineering Management and learn the role and responsibilities of a professional engineer. In your third year, you will complete an individual project, acquire specialist Electronics and Communications Systems knowledge, and learn how to convert an idea into a commercial venture. Should you pursue the MEng then you will cover some of these topics in more depth alongside broadening studies, for example in business management and accounting.