Programme Specification
MSc Advanced Manufacturing Engineering and Management
Academic Year: 2018/19
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 .
This specification should be read in conjunction with:
- Reg. XXI (Postgraduate Awards) (see
- Module Specifications
- Summary
- Aims
- Learning outcomes
- Structure
- Progression & weighting
Programme summary
Awarding body/institution | 天堂视频 |
Teaching institution (if different) | |
Owning school/department | Wolfson School of Mechanical, Electrical and Manufacturing Engineering |
Details of accreditation by a professional/statutory body | Institution of Engineering and Technology (IET) Institution of Engineering Designers (IED) Institution of Mechanical Engineers (IMechE) |
Final award | MSc/ PGDip / PGCert |
Programme title | Advanced Manufacturing Engineering and Management |
Programme code | WSPT01 (Full-Time) & WSPT51 (Part-Time) |
Length of programme | 1 year for full-time and 3 years (typically) for part-time. Maximum period of part-time study is 8 years. |
UCAS code | |
Admissions criteria | MSc Full time: MSc Part time: |
Date at which the programme specification was published | Fri, 07 Dec 2018 09:39:27 GMT |
1. Programme Aims
The Masters of Science in Advanced Manufacturing Engineering and Management aims to develop students’ education and experience in the field of advanced manufacturing technologies and their management, providing the basis for their effective careers as accountable technologists and managers who can meet the challenges of rapidly changing global manufacturing industries.
The programme aims to:
- Deliver advanced core subjects in manufacturing processes, technologies and management which underpin a career with significant responsibility in manufacturing industries and related research
- Provide opportunities for students to develop both a deep and broad understanding of advanced manufacturing through integration of core subjects, enabling graduates to work as multidisciplinary professionals
2. Relevant subject benchmark statements and other external reference points used to inform programme outcomes:
-
UK Standard for Professional Engineering Competence; Engineering Technician, Incorporated Engineer and Chartered Engineer Standard, Engineering Council UK, 2013.
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UK Standard for Professional Engineering Competence; The Accreditation of Higher Education Programmes, Engineering Council UK, 2013.
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Subject Benchmark Statement: Engineering, The Quality Assurance Agency for Higher Education, February 2015
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Master's degree characteristics, the Quality Assurance Agency for Higher Education, September 2015.
3. Programme Learning Outcomes
3.1 Knowledge and Understanding
On successful completion of this programme, students should be able to demonstrate comprehensive knowledge and understanding of:
- The phases and activities essential to successful engineering projects;
- Principles of new product development and the relationships between design, manufacturing, environment and commerce;
- Resource conservation, sustainable development and design for the environment in a manufacturing company context;
- The concepts and principles behind the various Additive Manufacturing processes as per the ASTM F42 standards;
- Biological systems and the technology needed for their manufacture
- Analysis and optimisation of laser processing; the behaviour of polymers, ceramics and metals when incident with various energy beams;
- Types of advanced automation systems, along with their industrial applications;
- Manufacturing management and business practices including finance, accounting, law and quality;
- Environmental legislation and management in a company context;
- The lean and agile manufacturing philosophies and the distinction between their operations;
- Techniques appropriate for modelling the physics- and organisational aspects of manufacturing systems;
- Knowledge integration issues within manufacturing systems.
3.2 Skills and other attributes
a. Subject-specific cognitive skills:
On successful completion of this programme, students should be able to:
- Demonstrate awareness of the principles of creativity and project planning in multidisciplinary manufacturing environments;
- Produce solutions to manufacturing-related problems through the application of engineering knowledge and understanding;
- Analyse the principles of the various Additive Manufacturing technologies and their influence on product development;
- Understand the opportunities and limitations faced by manufacturing engineers in biological product development;
- Identify suitable applications for each advanced manufacturing process, and assess their advantages and disadvantages;
- Evaluate commercial risk, make decisions based on available information using judgement and reasoning;
- Specify and design an appropriate lean or agile business system;
- Propose and justify methods for the integration of manufacturing processes within a higher level manufacturing system based on required information flows.
b. Subject-specific practical skills:
On successful completion of this programme, students should be able to:
- Use the design or innovation process as a basis for planning and carrying out manufacturing-related projects and for structuring project reports;
- Apply engineering techniques taking account of industrial and commercial constraints;
- Critically evaluate feasibility of manufacturing a biological product, recognizing needs for safety and containment;
- Calculate the correct operating parameters for a variety of manufacturing processes;
- Plan and organise engineering activities for improved company effectiveness;
- Integrate lean and agile approaches with other systems - such as OPT, PBC or reflective manufacture;
- Given the required product/component attributes, propose and justify the key elements of an appropriate manufacturing system.
c. Key transferable skills:
On successful completion of this programme, students should be able to:
- Plan and monitor multi-disciplinary projects, identifying the factors that influence commercial success;
- Solve general problems through systematic analysis and design methods. Critically assess given information, make value judgements about it, and use it in the solution of an unfamiliar problem;
- Understand how Additive Manufacturing can be used in different manufacturing industries;
- Comprehensively communicate with clinicians and life scientists concerning their needs and manufacturing capability;
- Creatively foresee new areas of application for the advanced manufacturing processes and automation systems, utilising the knowledge gained to design advanced manufacturing and automation systems;
- Present a comprehensive case for the selection of an appropriate lean or agile system;
- Present logical reasoned arguments and communicate ideas clearly and concisely;
- Solve engineering and wider manufacturing-related problems;
- Manage time and resources;
- Manipulate and sort data, present data in technical reports, present and effectively communicate at an advanced level.
4. Programme structure
4.1. The following table lists the modules that comprise the programme. All modules on the programme are compulsory.
Code |
Title |
Modular Weight |
Semester |
C/O |
WSP409 |
Engineering for Sustainable Development |
15 |
1 |
C |
WSP438 |
Innovation Process & Entrepreneurship in Engineering |
15 |
1 |
C |
WSP600 |
Manufacturing Processes & Automation |
15 |
1 |
C |
WSP637 |
Introduction to Additive Manufacturing |
15 |
1 |
C |
WSP840 |
Biological Manufacturing |
15 |
1 |
C |
WSP105 |
Manufacturing System and Process Modelling |
15 |
2 |
C |
WSP233 |
Lean & Agile Manufacture |
15 |
2 |
C |
WSP237 |
Engineering Management & Business Studies |
15 |
2 |
C |
WSP501 |
Major Project (full-time) |
60 |
other | C |
WSP504 |
Major Project (part-time) |
60 |
other | C |
Key: Compulsory = (C) Optional = (O)
4.2 Projects
The taught modules are normally prerequisites for the Project module, which is an individual project under the direction of a supervisor.
5. Criteria for Progression and Degree Award
5.1 In order to be eligible for the award, candidates must satisfy the requirements of .
5.3 Provision will be made in accordance with for candidates who have the right of re-examination to undergo re-assessment in the University’s special assessment period.