SELECT UCS.mcr_ucrs UcasCode,srs_ipo.ipo_seqn,srs_ipp.ipp_code,srs_ipp.ipp_iref,srs_ipp.ipp_titl,srs_ippn.*,ins_dpt.dpt_name,ins_dpt.dpt_snam,men_xon.xon_newv,UCS.mcr_olbc,UCS.mcr_olb3,srs_ipo.ipo_begd,ins_lca.lca_name,srs_crs.crs_leng crs_leng,UCS.mcr_cgpc ApplyRoute,ins_moa.moa_name , ins_moa.moa_code,srs_ipp.ipp_iuse IPPUSE, UCS.mcr_iuse MCRUSE,UCS.mcr_schc, ins_cmp.cmp_name, ins_dpt.dpt_code, Case WHEN srs_ipo.ipo_iuse is null then 'Y' else srs_ipo.ipo_iuse end AS ipo_iuse, srs_crs.crs_uomc, srs_ipo.ipo_end2,srs_ipo.ipo_ayrc,UCS.MCR_RECR, srs_ipo.ipo_udf9, srs_ipp.ipp_prgc, CRS_UDFI, srs_ipp.ipp_subj, CASE WHEN (SELECT TOP 1 mcr_uvst FROM srs_mcr WHERE mcr_code LIKE Substring(srs_ipp.ipp_code, 1, 6) + '%' AND mcr_uvst = 'Y' AND mcr_iuse = 'Y' AND mcr_aesc = 'U') = 'Y' THEN 'True' ELSE 'False' END AS Clearing, CASE WHEN (SELECT TOP 1 crs_udf4 FROM srs_crs WHERE crs_code LIKE Substring(srs_ipp.ipp_code, 1, 6) + '%' AND crs_udf4 IS NOT NULL AND crs_iuse = 'Y' AND crs_schc = 'PWLV') IS NOT NULL THEN 'True' ELSE 'False' END AS PGLoans FROM srs_ipp INNER JOIN srs_ippn on srs_ippn.ippn_ippc = srs_ipp.ipp_code LEFT OUTER JOIN srs_mcr UCS On UCS.mcr_code = srs_ipp.ipp_code LEFT OUTER JOIN ins_dpt On ins_dpt.dpt_code = srs_ipp.ipp_dptc LEFT OUTER JOIN ins_prg On ins_prg.prg_code = srs_ipp.ipp_prgc LEFT OUTER JOIN srs_ipo On srs_ipo.ipo_ippc = srs_ipp.ipp_code LEFT OUTER JOIN ins_lca ON srs_ipo.ipo_lcac = ins_lca.lca_code LEFT OUTER JOIN srs_crs ON srs_crs.crs_code = substring(srs_ipp.ipp_code,0,len(srs_ipp.ipp_code)) LEFT OUTER JOIN ins_moa On ins_moa.moa_code = UCS.mcr_moac LEFT OUTER JOIN srs_CBO ON (srs_CBO.cbo_crsc = srs_crs.crs_code And srs_cbo.cbo_ayrc = srs_ipo.ipo_ayrc and srs_cbo.cbo_blok = srs_ipo.ipo_blok AND srs_cbo.cbo_occl = srs_ipo.ipo_occl ) AND cbo_cmp1 IS NOT Null LEFT OUTER JOIN ins_cmp On ins_cmp.cmp_code = srs_CBO.cbo_cmp1 LEFT OUTER JOIN men_xon On men_xon.xon_oldv = ins_prg.prg_code WHERE srs_ipp.ipp_code LIKE 'MA015P%' AND srs_ipp.ipp_iuse = 'Y' AND UCS.mcr_iuse = 'Y' AND (srs_ipp.ipp_stat = 'P' OR srs_ipp.ipp_code != 'MA015P31UVD') ORDER BY ipp_iref DESC, ipp_code
The University of Wolverhampton

MScAdvanced Technology Management (Engineering Analysis)

Why choose this course?

Modern industry operates within a highly competitive global market, the adoption, exploration and management of technology across both design and manufacture and product simulation performance is at the forefront of providing successful business with the competitive edge needed to survive and grow. In addition, society is demanding that such business enterprises become evermore proactive in terms of adopting a more socially conscious approach, such as sustainability, across all their strategies and operations.

This course aims to develop your knowledge and understanding of modern engineering analysis and simulation tools and techniques in terms of product development and optimisation before manufacture. You will gain a comprehensive understanding of how various IT-based tools and systems function while also gaining insights into how these are implemented effectively, within the manufacturing and industrial sectors. You will be equipped to undertake cross-functional management roles and to evaluate how modern organisations can strategically exploit existing and emerging technologies. This reflects the growing demand for specialists with advanced skills and knowledge to drive forward effective, new, product development and their introduction across all of the major industrial sectors including automotive, aerospace and general manufacture.

The course will allow you acquire advanced knowledge and systematic understanding of contemporary finite element modelling techniques to analyse the behaviour of complex engineering systems and components. It will involve a comprehensive understanding of advanced solid mechanics and analytical techniques pertinent to product development and sustainability, and to apply these advanced techniques to synthesise novel designs of a range of engineering systems.

What happens on the course?

Research Methods and Professional Skills

Project Management Tools and Techniques

CAD and Product Definition

Emerging Design Tools

Dissertation

Simulation and Design Optimisation

Applied Stress Analysis

Why Wolverhampton?

This course provides you with the unique opportunity to experience the practicalities and applications of modern Engineering Analysis Techniques. The dedicated IT simulation resources and expertise of our specialised staff, based at our Telford Campus, is well renowned and often called upon to support and advise external agencies and key industries across the aerospace, automotive and automotive sports and power generation sectors. You can therefore rest assured of access to a variety of significant simulation techniques facilities and expertise. Beyond this, the course will encourage and guide you to explore and conduct research into emerging Design and use the latest industry standard simulation software to produce complex, economical and sustainable part/component part production. Our expectation is that the exposure offered by the course, to modern and newly emerging manufacturing technologies coupled with the project managerial aspects of the course will ensure that you are well placed to take up a key role in this dynamic industrial sector.

You will have the opportunity to engage with a range of learning approaches during the course of your study.

You will take part in lectures and seminars. Some of these will be more traditional whereas others will require you to undertake research before coming together to discuss technical issues with a range of students and academic staff. You will have seminars from industry practitioners and have the opportunity to discuss your projects with them to gain real world insight into the problems you are trying to solve.

You will have the opportunity to work in a range of dedicated facilities such as the Dedicated IT Laboratories to develop practical skills and understand the link between the theory and practical implementation of integrated CAD, Simulation and Finite Element Analysis Techniques. Throughout the weekly class sessions and through use of the on-line support material, you will obtain skills required to successfully implement and manage a range of modern design and simulation systems, processes and methodologies.

Often working on assessment and project briefs specified by industry practitioners, you will develop solutions to meet real world problems/requirements and be able to present these to your peers, practitioners and third parties in order to obtain balanced and current feedback.

Career path

The course is aimed at Science and Technology graduates who aspire to Engineering and Manufacturing management roles, in leading industrial organisations.

On completion of the programme, you can expect to develop your career leading to senior management where strategic thinking skills, project management experience and a deeper technological knowledge-base would be beneficial.

What skills will you gain?

  • Develop novel strategies for the management and deployment of advanced and emerging technologies, tools and techniques.
  • Select and apply appropriate industry standard computer aided engineering software and analysis methods to model, analyse and evaluate engineering systems and solve engineering problems.
  • Apply knowledge to create original concepts for products, engineering systems or processes.
  • Make use of high level skills and abilities to exploit generic and bespoke software tools, solve complex design, configuration or process problems and thereby develop industrially appropriate solutions for delivery to a range of audiences.
  • Be fully conversant with the theories underpinning the fundamental principles that govern Stress Analysis
  • Model and analytically analyse the behaviour of structures and engineering components under complex loading conditions especially in specific applications such as those encountered in the automotive, aeronautical, aerospace and power generation industries

Entry requirements

2018 Entry

Applicants will normally be required to have a 2:2 (or higher) honours degree in a subject broadly related to the science and engineering disciplines.

A Postgraduate Certificate in a related subject or equivalent with a minimum of grade C in all modules.

International Applicants

Your qualifications need to be deemed equivalent to the above entry requirements.

Course fees and finance

2018/9 Home/EU International
Full time £6,150 £12,700
Part time £3,075

These fees are applicable for new entrants in 2018/9. Fees are for the academic year only, any subsequent years may be subject to an annual increase, usually in line with inflation.

2017/8 Home/EU International
Full time £6,020 £12,445
Part time £3,010

These fees are applicable for new entrants in 2017/8. Fees are for the academic year only, any subsequent years may be subject to an annual increase, usually in line with inflation.

Postgraduate Loans: A new system of loans for taught and research Masters courses for students resident in England was introduced from September 2016. For more information and how to apply online visit: www.gov.uk/postgraduate-loan

Professional and Career Development Loan: The University is a Professional and Career Development Loans (PCDL) registered Learning Provider, registration number [4413]. A PCDL is a commercial bank loan that you can use to help pay for work-related learning. For further information on financial assistance to support your learning, please visit the GOV.UK website or contact the National Careers Service on 0800 100 900.

Charitable Funding: You might also want to explore the possibility of funding from charitable trusts; please see the following websites www.acf.org.uk, www.dsc.org.uk/fundingwebsites or www.family-action.org.uk. Most charities and trust funds offer limited bursaries targeted to specific groups of students so you will need to research whether any of them are relevant to your situation.

University Postgraduate Loyalty Discount: The University also offers a postgraduate loyalty discount (http://www.wlv.ac.uk/study-here/money-matters/financial-support/postgraduate-study/postgraduate-loyalty-discount/): If you have completed an undergraduate degree at the University of Wolverhampton, you may be eligible for a 20% discount on the first year of a taught postgraduate programme.

Financial Hardship: Students can apply to the Dennis Turner Opportunity Fund (http://www.wlv.ac.uk/study-here/money-matters/financial-support/dennis-turner-opportunity-fund/) for help with course related costs however this cannot be used for fees or to cover general living costs.

If you are paying for the fees yourself then the fees can be paid in 3 instalments: November, January and April. More information can be found at www.wlv.ac.uk/howtopay

.

Contact us

Telephone

01902 32 22 22

Email

enquiries@wlv.ac.uk

Online

Order a prospectus