3. Programme Learning Outcomes
3.1 Knowledge and Understanding
On successful completion of this programme, students should be able to demonstrate knowledge and understanding of:
- Relevant mathematical and statistical methods and principles of materials science as applicable to materials science and engineering;
- Specialist science and engineering topics connected with the characterisation, testing, properties, processing, and applications of materials;
- The role of information technology and library resources in providing support for materials engineers and scientists;
- Science and engineering principles relevant to materials selection;
- The materials and engineering aspects of design;
- The professional and engineering responsibilities of materials scientists and engineers;
- A systematic understanding and critical awareness of current problems and/or new insights, much of which is at the forefront of materials science and engineering practice.
3.2 Skills and other attributes
a. Subject-specific cognitive skills:
On successful completion of this programme, students should be able to:
- Apply appropriate material and process selection procedures for the design of a component;
- Utilise materials science and engineering principles to develop new materials/processing routes for improved performance of engineering systems;
- Devise and test innovative solutions to materials-related problems, and where appropriate, propose new hypotheses;
- Select and apply appropriate IT tools to a variety of materials problems;
- Select materials from an environmentally appreciative viewpoint;
- Analyse materials aspects of bulk, raw materials as well as finished components;
- Evaluate numerical data and apply sophisticated mathematical methods to the analysis of materials science and engineering problems.
b. Subject-specific practical skills:
On successful completion of this programme, students should be able to:
- Use appropriate testing and analysis methods for the study of materials;
- Manipulate systems for the processing of a range of material types;
- Use appropriate computer software for design and modelling exercises to predict materials properties and behaviour;
- Evaluate and present experimental or modelling 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 materials knowledge;
- Interpret and critique experimental results in terms of theoretical mechanisms and concepts;
- Create clear and well-structured technical reports in an appropriate format using technical language specific to materials science and engineering;
- Critically evaluate current materials science and engineering research;
- Demonstrate project management skills either individually or as part of a group.
c. Key transferable skills:
On successful completion of this programme, students should be able to:
- Apply constructive, creative, and structured approaches to complex problem solving;
- Exercise the independent learning ability required for continuing professional development;
- Make informed and responsible 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 a variety of media;
- Demonstrate a high level of numeracy, appropriate to the cognitive skills required.
4. Programme structure
Part A - All modules are compulsory.
|
Module code
|
Title
|
Credits
|
Semester
|
|
MPA201
|
Introductory Materials Science
|
10
|
1
|
|
MPA202
|
Experimentation and Practical Skills
|
20
|
1 and 2
|
|
MPA203
|
CAD and Engineering Drawing
|
10
|
1
|
|
MPA204
|
Engineering Analysis and Modelling
|
10
|
2
|
|
MPA205
|
Thermodynamics and Phase Equilibria
|
10
|
1
|
|
MPA207
|
Mechanics for Materials 1
|
10
|
2
|
|
MPA210
|
Introduction to Product Design
|
10
|
1
|
|
MAA101
|
Mathematics for Materials 1
|
10
|
1
|
|
MAA201
|
Mathematics for Materials 2
|
10
|
2
|
|
MPA321
|
Introduction to Materials Processing
|
10
|
2
|
|
MPA322
|
Materials Applications
|
10
|
2
|
Part B - 110 credits of compulsory modules, 10 credits of optional modules
|
Module code
|
Title
|
Credits
|
Semester
|
Compulsory/optional
|
|
MAB101
|
Mathematics for Materials 3
|
10
|
1
|
C
|
|
MPB208
|
Fracture Mechanics of Materials
|
10
|
2
|
C
|
|
MPB311
|
Materials Modelling
|
20
|
1 and 2
|
C
|
|
MPB210
|
Group Design Project
|
10
|
1
|
C
|
|
MPB209
|
Materials Characterisation
|
10
|
2
|
C
|
|
CGB018
|
Plant Engineering
|
10
|
2
|
C
|
|
MPB312
|
Materials Processing
|
30
|
1 and 2
|
C
|
|
MPB313
|
Materials in Service
|
10
|
1
|
C
|
|
TTA107
|
Vehicle Design and Development
|
10
|
1
|
O
|
|
LAN---
|
Language module of appropriate level
|
10
|
1 or 2
|
O
|
|
MPB231
|
Biomaterials 1 (Biomaterials for Tissue Engineering)
|
10
|
2
|
O
|
|
TTB107
|
Vehicle Loading and Suspensions
|
10
|
2
|
O
|
Part I – Diploma in Industrial Studies and Diploma in International 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 - 100 credits of compulsory modules, 20 credits of optional modules
|
Module code
|
Title
|
Credits
|
Semester
|
Compulsory/optional
|
|
MPC312
|
Nano Materials
|
10
|
1
|
C
|
|
MPC311
|
Advanced Processing Methods
|
10
|
1
|
C
|
|
MPD110
|
Project
|
40
|
1 and 2
|
C
|
|
MPC114
|
Composite Materials
|
10
|
2
|
C
|
|
MPC312
|
Functional Materials
|
10
|
2
|
C
|
|
MPC111
|
Advanced Principles of Materials
|
10
|
1
|
C
|
|
MPC108
|
Surface Engineering
|
10
|
1
|
C
|
|
BSC522
|
Entrepreneurship and Innovation
|
10
|
1
|
O
|
|
LAN---
|
Language module of appropriate level
|
10
|
1 or 2
|
O
|
|
MPC120
|
Vehicle and Component Design
|
20
|
1 and 2
|
O
|
|
BSC144
|
Project Management
|
10
|
2
|
O
|
|
MPC123
|
Automotive Crash Protection
|
10
|
1
|
O
|
Part D - 90 credits of compulsory modules, 30 credits of optional modules
|
Module code
|
Title
|
Credits
|
Semester
|
Compulsory/optional
|
|
MPP551
|
Advanced Characterisation Techniques
|
15
|
1
|
C
|
|
MPP556
|
Materials Modelling
|
15
|
2
|
C
|
|
MPD101
|
Group Design Project
|
50
|
1 and 2
|
C
|
|
MPD321
|
Energy Materials
|
10
|
2
|
C
|
|
MPD311
|
Crystallographic analysis of Materials
|
10
|
2
|
O
|
|
MPD105
|
Advanced Materials Dissertation
|
10
|
1
|
O
|
|
BSD523
|
Enterprise Technology
|
10
|
1
|
O
|
|
MPD322
|
Elasticity
|
10
|
2
|
O
|
|
MPD014
|
Polymer Engineering - Properties and Design
|
10
|
1
|
O
|
|
MPD102
|
Industrial Case Studies
|
10
|
2
|
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 modules MAA101 Mathematics for Materials 1 and MAA201 Mathematics for Materials 2 together with an overall average of 55% for Parts B, C and D.
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.
