Programme Specification
MEng (Hons) Automotive Materials
Academic Year: 2020/21
This specification provides a concise summary of the main features of the programme and the learning outcomes that a typical student might reasonably be expected to achieve and demonstrate if full advantage is taken of the learning opportunities that are provided.
This specification applies to delivery of the programme in the Academic Year indicated above. Prospective students reviewing this information for a later year of study should be aware that these details are subject to change as outlined in our Terms and Conditions of Study.
This specification should be read in conjunction with:
- Reg. XX (Undergraduate Awards) (see University Regulations)
- Module Specifications
- Summary
- Aims
- Learning outcomes
- Structure
- Progression & weighting
Programme summary
Awarding body/institution | º¬Ðß²ÝÊÓƵ |
Teaching institution (if different) | |
Owning school/department | Department of Materials |
Details of accreditation by a professional/statutory body | Institute of Materials, Minerals and Mining |
Final award | MEng/MEng + DIS /MEng + DIntS / MEng + DPS |
Programme title | Automotive Materials |
Programme code | MPUM02 |
Length of programme | The duration of the programme is either 8 semesters, or 10 semesters if students undertake industrial training leading to the additional award of the Diploma in Industrial Studies, Diploma in Professional Studies, or study at a University abroad leading to the award of the Diploma in International Studies. These occur between Part B and Part C. |
UCAS code | J552, J553 |
Admissions criteria | MEng - http://www.lboro.ac.uk/j552 MEng + DIS/DIntS/DPS - http://www.lboro.ac.uk/j553 |
Date at which the programme specification was published | Mon, 11 Jan 2021 09:32:49 GMT |
1. Programme Aims
- To provide an accredited honours degree programme in the field of automotive materials engineering which satisfies the needs of industry for graduates of outstanding ability who have a very strong academic background with especially outstanding business and interactive skills.
- Greater in-depth knowledge of materials engineering will be included compared with the B.Eng counterpart programme and we aim to graduate high calibre materials engineers equipped with skills required to play a leading, technical role at an executive level in the automotive industry.
- To encourage students to manage their own learning, communicate effectively and make use of primary source materials.
2. Relevant subject benchmark statements and other external reference points used to inform programme outcomes:
- QAA Framework for Higher Education Qualifications
- QAA Benchmark Statements for Materials
- Institute of Materials, Minerals and Mining Guidelines for Accreditation
3. Programme Learning Outcomes
3.1 Knowledge and Understanding
On successful completion of the programmes, graduates should be able to demonstrate knowledge and understanding of:
- Relevant mathematical methods and principles of materials science as applied to materials engineering;
- A number of specialist materials topics connected with metals, ceramics, polymers, composites and automotive materials;
- The role of information technology in providing support for automotive materials engineers;
- Engineering principles relevant to materials selection;
- The materials and engineering aspects of vehicle design;
- The professional and engineering responsibilities of materials engineers;
- A systematic understanding of knowledge, and a critical awareness of current problems and/or new insights, much of which is at the forefront of automotive materials engineering practice.
3.2 Skills and other attributes
a. Subject-specific cognitive skills:
On successful completion of this programme students should be able to:
- Select and identify an appropriate material and manufacturing route for the design of a component;
- Utilise materials engineering principles to develop new materials/processing routes for improved performance of automotive engineering systems;
- Solve automotive materials engineering problems, and, where appropriate, propose new hypotheses;
- Select and apply appropriate IT tools to a variety of automotive materials problems;
- Analyse systems, processes, and components;
- Select materials from an environmentally appreciative viewpoint;
- Interpret numerical data and apply mathematical methods to the analysis of automotive materials engineering problems;
- Develop the materials engineering skills to optimise manufacturing efficiency for automotive products.
b. Subject-specific practical skills:
On successful completion of the programmes, students should be able to:
- Use, and have a comprehensive understanding of, appropriate mechanical testing, corrosion testing, optical and electron metallographic, and chemical analysis methods for the study of materials;
- Manipulate systems for the processing of polymers, ceramics, metals and composites;
- Use appropriate computer software for design and modelling exercises;
- Evaluate and present practical data in a format that shows originality in the application of knowledge, together with a practical understanding of how established techniques are used to create and interpret automotive materials engineering knowledge;
- Explain experimental results in terms of theoretical mechanisms and concepts;
- Research for information;
- Demonstrate project management skills.
c. Key transferable skills:
On successful completion of the programmes, students should be able to:
- Organise and manage time and resources effectively;
- Apply constructive, creative, and structured approaches to complex problem solving;
- Exercise the independent learning ability required for continuing professional development;
- Make decisions in complex and unpredictable situations;
- Work effectively, both as part of a team and/or independently;
- Organise and manage time and resources effectively; for short-term and longer-term commitments;
- Possess skills needed to communicate effectively through written, graphical, inter-personal, and presentation media;
- Demonstrate a high level of numeracy; appropriate to the cognitive skills required;
- Understand the operational and strategic issues involved with the automotive industry;
- Compile clear and well-structured technical reports;
- To plan, monitor and record personal, educational and career development issues using the fast track route towards chartered status.
4. Programme structure
Part A – All modules are compulsory
Code |
Semester |
Title |
Modular Weight |
MPA220 |
1 and 2 |
Introductory Materials Science and Processing |
20 |
MPA202 |
1 and 2 |
Experimentation and Practical Skills |
20 |
MPA222 |
1 and 2 |
Computer Aided Engineering |
20 |
MPA221 |
1 and 2 |
Thermodynamics and its Applications |
20 |
MPA223 |
1 and 2 |
Materials Applications and Engineering Design |
20 |
MAA301 |
1 and 2 |
Mathematics for Materials 1 and 2 |
20 |
Part B – All modules are compulsory
Code |
Semester |
Title |
Modular Weight |
MPB209 |
2 |
Materials Characterisation |
10 |
CGB018 |
2 |
Plant Engineering |
10 |
MPB312 |
1 and 2 |
Materials Processing |
30 |
MPB313 |
1 |
Materials in Service |
10 |
MPB208 |
2 |
Fracture Mechanics of Materials |
10 |
MAB101 |
1 |
Maths for Materials 3 |
10 |
MAB205 |
2 |
Statistics |
10 |
TTB107 |
2 |
Vehicle Loading and Suspensions |
10 |
TTB207 |
1 |
Machine Elements and Automotive Materials |
10 |
TTA107 | 1 |
Vehicle Design and Development |
10 |
Part I – Diploma in Industrial Studies, Diploma in International Studies and Diploma in Professional Studies modules
Code |
Semester |
Title |
Modular Weight |
MPI001 |
1 and 2 |
Industrial Training Placement (DIS, non-credit bearing) |
120 |
MPI002 |
1 and 2 |
Overseas University Placement (DIntS, non-credit bearing |
120 |
MPI003 |
1 and 2 |
Diploma in Professional Studies (DPS, non-credit bearing) |
120 |
Ten Semester Programme
In accordance with Regulation XI, students can undertake a placement, leading to the additional award of the Diploma in Industrial Studies or Diploma in Professional Studies, or if taken at a University overseas the Diploma in International Studies.
Participation in a placement, or study abroad, is subject to Departmental approval and satisfactory academic performance in Parts A and B (and depending upon the route of study Part C).
Part C – 110 credits of compulsory modules, 10 credits of optional modules
Code |
Semester |
Title |
Modular Weight |
Compulsory/Optional |
MPC311 |
1 |
Advanced Processing Methods |
10 |
C |
MPC321 |
2 |
Functional Materials |
10 |
C |
MPC108 |
1 |
Surface Engineering |
10 |
C |
MPC114 |
2 |
Composite Materials |
10 |
C |
MPC120 |
1 and 2 |
Vehicle and Component Design |
20 |
C |
MPC123 |
1 |
Automotive Crash Protection |
10 |
C |
MPD110 |
1 and 2 |
Masters Project |
40 |
C |
BSC522 |
1 |
Entrepreneurship and Innovation |
10 |
O |
MPB311 |
1 |
Materials Modelling |
10 |
O |
MPC101 |
1 |
Sustainability, Recycling and Environmental Issues |
10 |
O |
MPC312 |
1 |
Nano Materials |
10 |
O |
LAN--- |
1 or 2 |
Language - with approval of the Programme Director in semester 1 or 2 |
10 |
O |
------ |
1 or 2 |
Other Level 6 module from the University module catalogue with agreement of the Programme Director |
10 |
O |
Part D – 100 credits of compulsory modules, 20 credits of optional modules
Code |
Semester |
Title |
Modular Weight |
Compulsory/Optional |
MPD101 |
1 and 2 |
Group Design Project |
50 |
C |
MPP567 |
1 |
Advanced Materials Characterisation |
15 |
C |
MPD321 |
1 |
Energy Materials |
10 |
C |
MPP556 |
2 |
Materials Modelling |
15 |
C |
TTC064 |
2 |
Vehicle Engine Analysis |
10 |
C |
LAN--- |
1 or 2 |
Language |
10 |
O |
BSC522 |
1 |
Entrepreneurship and Innovation |
10 |
O |
WSC206 |
2 |
Product Innovation Management |
10 |
O |
MPD102 |
2 |
Industrial Case Studies |
10 |
O |
MPD105 |
1 |
Advanced Materials Dissertation |
10 |
O |
MPD322 |
2 |
Elasticity |
10 |
O |
------ |
1 or 2 |
Level 7 module(s) from the University module catalogue |
10 |
O |
5. Criteria for Progression and Degree Award
In order to progress from Part A to Part B, from Part B to Part C and from Part C to Part D and to be eligible for the award of an Honours degree, candidates must not only satisfy the minimum credit requirements set out in Regulation XX but also must gain credit (≥40%) in the module MAA301 Mathematics for Materials 1 and 2 together with an overall average of 55% for Parts A, B and C.
In addition for students entering prior to 2019/2020: In order to progress from Part A to Part B, from Part B to Part C and from Part C to Part D and to be eligible for the award of an Honours degree, candidates must not only accumulate 120 credits together with an overall average of 55% for Parts A, B and C but also must gain credit (≥40%) in the modules MAA101 Mathematics for Materials 1 and MAA201 Mathematics for Materials 2.
6. Relative Weighting of Parts of the Programme for the Purposes of Final Degree Classification
Candidate’s final degree classification will be determined on the basis of their performance in degree level module assessments in Parts B, C, and D in accordance with the scheme set out in Regulation XX. The average percentages for each Part will be combined in the ratio Part B 20 : Part C 40 : Part D 40 to determine the overall average percentage mark.