Introducing Professor Stephen Bush

News
Britain’s Referendum Decision and its Effects

Download this illuminating study on Brexit by Stephen Bush here. It’s an invaluable guide to understanding Britain’s negotiating position with the EU.

Leave/Remain effects on:

Finance
Trade
Immigration
Industry
Energy
Services
Non-trade Relations with the EU and Overseas
Defence and Security

Brexit:

Plans
Negotiations

Belonging and Identity
Enquiries

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Polymers and Composites: Properties and Processes

The outline of a Course given in the Department of Polymer Engineering to 3rd and 4th year students at UMIST

S F Bush and J M Methven

Aim

To equip the student to analyse the properties and processes needed to design and manufacture polymer composite artefacts.

Learning Outcomes:

Understand the meaning of Integrated Design and Manufacture for polymer composite products.
To be able to analyse for impact, fatigue, fracture, creep, thermal conduction, gaseous permeation, in polymer products.
To analyse the behaviour of fibre reinforced composites in their various forms.
To be able to apply the concepts and analysis to practical examples in the engineering, construction, automotive, electrical, and packaging sectors.

Syllabus

Integrated Design and Manufacture:[1] the main choices of process and material types; design rules for relating process to product; process pathways and “order of processing steps” principle; design methodology exemplified by thermoplastic gas pipe distribution system: six design stages including screening out unsuitable materials. Failure modes: impact, fatigue, fracture and creep analysis. Stress analysis, thermal conduction, permeation of gases and application to packaging and gas containment generally.

Fibre reinforcement:[1] distinction between continuous, long, and short discrete fibres. Control of fibre orientation. Fibre touch and composite strength equations. Applications to thermoplastic injection mouldings, pipe and sheet extrusions and blow-mouldings: practical examples from automotive, textiles, drinks sectors.

Lightweight materials for design of sandwich panels:[2] classes of cellular plastics – for thermoset and thermoplastics. Manufacture of foams – materials, reaction injection moulding, thermoplastic (structural) foams. Structure and properties of foams – stiffness, thermal conductivity. Compounding for cost reduction and property enhancement: applications in automotive and electrical sectors. Manufacture of dough moulding compounds and sheet moulding compounds: mechanical properties from rule(s) of mixtures applied to 3 components (resin, filler and fibre).

Assessments

90% by written exam

Pre-requisites

Second year Engineering Materials

References

[1] Prof S F Bush

[2] Dr J M Methven

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Lecture Courses

News

Britain’s Referendum Decision and its Effects

Leave/Remain effects on:

Brexit:

Belonging and Identity

Enquiries

Thank you

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