This module introduces many of the processes that are used for creating parts, including machining (turning, milling, boring, grinding); EDM and etching; welding and brazing; adhesives and fasteners; forming (bending, stamping); casting and moulding; additive manufacturing; and semiconductor manufacturing.
Pre-requisite modules
Co-requisite modules
- None
Prohibited combinations
- None
Occurrence | Teaching period |
---|---|
A | Semester 1 2023-24 |
Subject content aims:
To introduce the theory and practice of manufacturing parts and assemblies using a wide range of technologies.
To allow processes to be chosen appropriately for any given design in any given material.
To show how design is constrained by manufacturability.
Graduate skills aims:
To develop group working, research and writing skills.
Subject content learning outcomes
After successful completion of this module, students will be able to:
Examine manufacturing processes to describe the structural properties of products.
Calculate and measure the material behaviour in manufacturing processes.
Define the characteristics of various manufacturing operations, including machining and fabrication operations.
Choose appropriate manufacturing processes for different parts.
Design parts such that they are suitable for manufacture using appropriate techniques.
Graduate skills learning outcomes
After successful completion of this module, students will be able to:
Work as a team on a design and manufacture project using a variety of manufacturing techniques.
To be able to explain basic characteristics of various manufacturing processes.
Cutting theory (chip formation, tool geometry, chip control and chipbreakers, cutting forces, speeds and feeds). Cutting operations (turning, milling, boring, grinding, lapping, polishing). Machines (lathes, drills, mills, boring machines, surface grinders). Computer aided design and manufacture (CAD/CAM). Welding and joining techniques including brazing. Forming theory for polymers and metals. Application of forming theory (piercing, stamping, bending, pressing). Casting techniques including moulding (e.g. injection, blow, hydroforming), investment casting, sand casting. Additive techniques - 3D printing, SLS. Microfabrication technologies. Metrology including coordinate measuring machines (CMM), 3D scanning.
Task | % of module mark |
---|---|
Closed/in-person Exam (Centrally scheduled) | 50 |
Essay/coursework | 50 |
None
Task | % of module mark |
---|---|
Closed/in-person Exam (Centrally scheduled) | 50 |
Essay/coursework | 50 |
'Feedback’ at a university level can be understood as any part of the learning process which is designed to guide your progress through your degree programme. We aim to help you reflect on your own learning and help you feel more clear about your progress through clarifying what is expected of you in both formative and summative assessments. A comprehensive guide to feedback and to forms of feedback is available in the Guide to Assessment Standards, Marking and Feedback.
The School of PET aims to provide some form of feedback on all formative and summative assessments that are carried out during the degree programme. In general, feedback on any written work/assignments undertaken will be sufficient so as to indicate the nature of the changes needed in order to improve the work. The School will endeavour to return all exam feedback within the timescale set out in the University's Policy on Assessment Feedback Turnaround Time. The School would normally expect to adhere to the times given, however, it is possible that exceptional circumstances may delay feedback. The School will endeavour to keep such delays to a minimum. Please note that any marks released are subject to ratification by the Board of Examiners and Senate. Meetings at the start/end of each term provide you with an opportunity to discuss and reflect with your supervisor on your overall performance to date.