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Manufacturing Management

Summary

The programme has been designed to provide postgraduate education and training in Manufacturing Management. The course includes modules in topics such as Computer Aided Engineering, Quality and Manufacturing Systems. A significant proportion of the students on the course come from local engineering companies.

About

The course draws upon the internationally recognised research within the school in areas such as Aerospace Composites, Polymers, Advanced Metal Forming, Medical Devices, Biomedical Engineering, and Nanotechnology. Such research within the school has led to several successful spinout companies. Staff teaching on the course also have a wealth of industrial experience with many have decades of experience working with a wide range of companies. The following represent some of the available taught modules: Core modules, Manufacturing Systems, Computer Aided Engineering for Engineers, Quality Improvement A wide range of optional modules are available which allow students to tailor the course to their interests or employment.

Teaching and learning assessment

The course is delivered through lectures, tutorials and laboratory classes and is supported with extensive online content. The small class sizes provide an excellent learning environment and the material is assessed thorough formal examinations, coursework, class tests and presentations.

Work placement / study abroad

Part time students can undertake work based learning modules.

Entry requirements

Entry Requirements

PgDip - Normally, an Honours or non-Honours degree or postgraduate diploma/certificate in a relevant engineering, technology or science discipline. In exceptional circumstances, where an individual has substantial and significant working/industrial experience, a portfolio of written evidence may be considered as an alternative entrance route. It is possible to transfer onto the MSc version of the course after successfully completing the PGDip.

MSc - Specific details on the admission criteria can be found at the course webpage provided below. Normally, a second class honours degree or better in a relevant engineering, science, physics or technology discipline. Or a postgraduate diploma/certificate in a relevant engineering or technology discipline. In exceptional circumstances, where an individual has substantial and significant working/industrial experience, a portfolio of written evidence may be considered as an alternative entrance route.

English Language Requirements

English language requirements for international applicants
The minimum requirement for this course is Academic IELTS 6.0 with no band score less than 5.5. Trinity ISE: Pass at level III also meets this requirement for Tier 4 visa purposes.

Ulster recognises a number of other English language tests and comparable IELTS equivalent scores.

Exemptions and transferability

Students can apply for exemptions for specific modules based on prior learning.

Duration

Attendance

Full time students take four modules per semester for semesters 1 and 2 with the course running from September to May. Part time students generally take two modules per semester but this can be altered as required. Part time students attend one day per week during term time and some of the modules run in the evening.

Careers or further progression

Career options

Upon successful completion of the programme students will be more employable within a wide range of manufacturing industries. The wide range of optional modules available in areas such as Biomedical Engineering, Nanotechnology, Aerospace and Materials allows students to tailor the course towards their particular interests. Another important opportunity for MSc students is the academic/research career through a PhD programme such as those offered in the Engineering Research Institute (ERI) which hosts the MSc programme.

Further enquiries

For admissions related enquiries please contact the Faculty Office:

E: cebe@ulster.ac.uk
T: +44 (0)28 9036 6305

Course Director: Dr Dorian Dixon
E: d.dixon@ulster.ac.uk

Subjects taught

Year one

Biomaterials 1
This module provides the student with the core skills required to critically appraise the composition, properties and function of synthetic biomaterials in the context of the relevant materials science considerations. Issues relating to the regulation of biomaterials, as used in relevant medical devices and the implications of the relevant FDA (USA) and Medical Device Directives (EU) legislation are also covered. Students will also develop skills to enable them to provide a considered opinion regarding the choice of biomaterials for specific clinical applications by considering a number of case studies.

Bioinstrumentation
This module provides students with the necessary skills to understand and develop medical engineering devices and provides in-depth knowledge of the regulatory procedures governing their implementation.

Tissue Engineering
This module provides the student with the skills required to critically appraise the composition, properties and function of tissue engineered products within the context of the relevant biological and materials science considerations. Issues relating to the ethics and regulation of tissue engineering and the implications of the relevant FDA (USA) and Medical Device Directives (EU) legislation are also covered. Students will also develop skills to enable them to provide a considered opinion regarding the choice of scaffolds, cells, stimulatory factors and bioreactor environment for specific applications by considering a number of case studies.

Embedded Systems RTOS Design
This module enables the student to design and implement cost-effective reliable real-time embedded systems that can be shown to meet the current industry performance, reliability and safety standards.

Research Methods & Facilities
The module proves the underpinnings in research methods required to design and conduct original postgraduate level research programmes. in addition the module aims to develop in-depth knowledge and advanced expertise in the use of specific advanced research facilties.

Manufacturing systems
This module provides a concise review of modern manufacturing, time compression methodologies and current manufacturing systems - their specification, implementation and development. The flow of data within a product lifecycle is analysed from design through to manufacture and the effective utilisation of advanced manufacturing technology addressed.

Research Project (Part 1)
The Research Based Learning module is defined as a period of project work within a research environment, normally of not less than 150 hours, supervised by a member of academic staff of the University. It is designed to inculcate a spirit of critical enquiry coupled with a rigorous academic approach to problem solving in research and enhance the personal, managerial, commercial and technical capabilities of the student.

Research Project (Part 2)
A Work Based Learning module is defined as a period of work based learning, normally of not less than 150 hours, supervised by a member of academic staff of the University. Part-time students working as professionals in industry are often involved in work which is entrepreneurial in nature. As a result they frequently gain knowledge, techniques and skills, and acquire expertise, which is equivalent to work at post-graduate level. This module is designed to provide a framework within which such personal development and achievement can be recognised by the award of academic credit.

Work based learning 2
A Work Based Learning module is defined as a period of work based learning, normally of not less than 150 hours, supervised by a member of academic staff of the University. Part-time students working as professionals in industry are often required to do work which is academically challenging. As a result they frequently gain knowledge, techniques and skills, and acquire expertise, which is equivalent to work at post-graduate level. This module is designed to provide a framework within which such personal development and achievement can be recognised by the award of academic credit.

Digital Signal Processing
This module is optional
This module enables the student to understand, design apply and evaluate digital signal processing algorithms.

Micro- & Nano-Scale Devices
This module is optional
The course provides an in depth knowledge of micro and nanofabrication techniques using elements from surface science, nanoscience and nanotechnology, plasmas and thin films, biosensors, tissue engineering and biomaterials.

Nanoscale Analysis & Metrology
This module is optional
This module focuses on nano and micro-scale analysis and metrology. The principle of operation and limitation of each technique are explained, the applications to the nanotechnology arena are described.

Finite Element Analysis and Computational Fluid Dynamics
This module is optional
An introduction to continuum modelling approaches will enable students to understand the concepts and applications of finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) modles. Specific skills will be developed using commercially available software in both FEA and CFD.An introduction to continuum modelling approaches will enable students to understand the concepts and applications of finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) modles. Specific skills will be developed using commercially available software in both FEA and CFD.

Quality Improvement
This module is optional
This module considers modern approaches to Quality Improvement. The context of product or service is set for the interpretation of Quality from different perspectives. The Quality topics are considered under the themes of definition, measurement, actions, improvement and control. Modern and traditional management approaches are evaluated and techniques appropriate to product or service characteristics and organisation performance are considered.

Entrepreneurship (Engineering)
This module is optional
In this module students are engaged in applying their knowledge of entrepreneurship and the entrepreneurial process in resolving some of the practical problems inherent in enterprise development and new venture creation.

Computer Aided Engineering for Managers
This module is optional
This module provides a concise and application based overview of current computer aided engineering systems by providing a detailed summary of current rapid-prototyping and manufacturing processes, multi-axis advanced manufacturing technologies, digital inspection and simulation. The application of CAE to enhance the product lifecycle will be the fundamental objective of this module. The integration of these systems from new product introduction (NPI) through to digital inspection will be addressed.

Polymer Technology
This module is optional
At the end of the module the student should be able to critically appraise alternative thermoplastic conversion and fabrication processing routes. Through analysis of processing behaviour, they should be capable of developing appropriate strategy for selection of conversion routes for a range of representative material systems and applications in terms of total economics and quality enhancement.

Composite Engineering
This module is optional
At the end of the module the student should have acquired a high level of competence the many facets of composite materials and their processing methods leading to an active role as a member of a Production Management or Research team. The student should have the ability to select between competing 'composite' technologies for specific applications and hence be in a position to devise conversion systems and associated quality assurance procedures, having regard to maximising cost effectiveness and product reliability.

Mechanics of Sheet Metal Forming
This module is optional
An introduction to the theory of engineering plasticity applied to common sheet metal forming processes. The relevant theories are presented and their application to real industrial processes are emphasised.

Year two

Process Product Optimisation
This module is optional
At the end of the module the student should be capable of critically assessing the complete polymer or composite system. Using modelling and analysis techniques, they should be capable of designing the complete system to meet a specific performance requirement, thus removing much of the trial and error from the practice.

Application date

Application is through the University's online application system.

Enrolment and start dates

Start dates: September 2019

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