Materials & Manufacturing Processes (H7106)
Materials and Manufacturing Processes
Module H7106
Module details for 2021/22.
15 credits
FHEQ Level 4
Module Outline
The main objective of this module is to inform students about the importance of the relationships between product design, material properties and manufacturing processes for the production of products that satisfy customer quality and functionality requirements. The necessary supporting IT infrastructure is also introduced. The student will acquire knowledge to enable them to make economically viable selections of materials and manufacturing processes. The module also considers how to minimise environmental impact.
At the end of the module the student should be able to specify materials and manufacturing processes that would permit economic manufacturing processes related to production volumes, which are a major consideration when investing in tooling.
In detail the module informs students how material properties arise from the atomic and crystalline nature of: metals, ceramics, polymers and composites. It also explains how material properties can be enhanced via the manufacturing methods employed.
The failure mode of materials is considered in the context of product functionality, factors of safety and manufacturing processes.
Throughout the course the materials and methods of production of a wide range of products are considered. The module is supported by laboratory work, workshops and demonstrations.
Module Topics
Introduction to Materials and Material Science: Principal characteristics and applications of plastics, metals, composites, ceramics, and natural materials. Historical and recent developments in material science with respect to design and engineering applications.
Introduction to Atomic and Macroscopic Level Properties of Materials: key chemical, electrical, mechanical, thermal, environmental, and manufacturing properties of materials. How material properties arise from atomic level interactions; atomic bonding, the basic force/separation curve and the development of the stress/strain relationship.
Introduction to Behaviour of Materials under Load: introduction to forces and basic types of loading cases. Stress and strain curves. Mechanics of materials under axial tensile and compressive forces. Stress concentrations. Introduction to design stresses and factors of safety.
Selection of Materials: basic methods of material selection, use of software in material selection.
Engineering Failures: Typical failure mechanisms of materials such as fatigue, creep, crack growth, and corrosion. Case studies of engineering failures with respect to material selection and design.
Introduction to Manufacturing processes: Casting, moulding, forming, machining, joining, rapid manufacturing and 3D printing. Correct machine shop working practice and related health and safety considerations. Practical lathe or milling exercise to understand feeds and speeds, operation, parting off, surface finish, tool selection, and cutting fluids/coolants. Engineering tolerances. Cost of manufacture and materials, and related design considerations.
AHEP3 Learning Outcomes
SM1p SM2p SM3p SM1m SM3m SM4m EA1p EA2p EA3p EA6m D3p EP1p EP2p EP3p EP4p EP6p EP9p EP1m EP2m EP3m EP4m EP6m EP9m
Library
Material science; selection of materials. Jones, S.W.
Selection and use of engineering materials, Charles, J.A., Crane, F.A.A., Furness, J.A.G.
Materials science and engineering; an introduction, Callister, W.D.
Materials selection in mechanical design, Ashby, M.F.
Engineering mechanic, Statics, Bedford, A, Fowler, W., any edition
Engineering mechanics , Vol. 1, Statics, Meriam, J. L, Kraige, L.G., Wiley, any edition
Statics and Mechanics of materials, Hibbeler, R.C., SI, ed. Pearson
Mechanics for engineers, Statics, Beer, F. P., Johnston, E. R., any edition
Mechanics of Materials, Beer, F.P., and Johnson, E.R.,
Mechanics of Materials, Gere, J.M. and Timoshenko, S.P.,
Module learning outcomes
Demonstrate understanding of the underlying principles and concepts of the relation between material properties and design.
Demonstrate the evaluation of material behaviour for different loading cases.
Apply the principles of selection of materials, and analyse the failure modes of materials.
Have knowledge and experience of the basic principles of manufacturing processes.
Type | Timing | Weighting |
---|---|---|
Computer Based Exam | Semester 1 Assessment | 50.00% |
Coursework | 50.00% | |
Coursework components. Weighted as shown below. | ||
Problem Set | T1 Week 5 | 8.00% |
Report | T1 Week 8 | 20.00% |
Problem Set | T1 Week 9 | 8.00% |
Problem Set | T1 Week 7 | 8.00% |
Report | T1 Week 11 | 20.00% |
Problem Set | T1 Week 11 | 8.00% |
Practical Assessment | XVAC Week 1 | 28.00% |
Timing
Submission deadlines may vary for different types of assignment/groups of students.
Weighting
Coursework components (if listed) total 100% of the overall coursework weighting value.
Term | Method | Duration | Week pattern |
---|---|---|---|
Autumn Semester | Lecture | 1 hour | 33333333333 |
Autumn Semester | Practical | 3 hours | 00101010100 |
Autumn Semester | Workshop | 1 hour | 00010101010 |
Autumn Semester | Laboratory | 2 hours | 00101010100 |
How to read the week pattern
The numbers indicate the weeks of the term and how many events take place each week.
Prof Chris Chatwin
Assess convenor
/profiles/9815
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