ࡱ>  0TTbjbj ~i1gi1gtK,D,,,0,H@~L!!"""U+,|i-@???????$B|Eb?-+@U+--?"" ?.-5-5-5-8""?-5-?-5-5r>T?" '!P+.>? @<H@?E/E?E?---5-----??q2---H@----E---------X ^:  Programme Details 1. Programme titleMaintenance Engineering2. Programme codeAMRU06 (Standalone)3. QAA FHEQ level54. FacultyEngineering5. DepartmentAMR6. Other departments providing credit bearing modules for the programmeManagement School Professional Development for Engineers 10 credits, Operations Management 10 credits, Manufacturing Systems 10 credits7. Accrediting Professional or Statutory BodyIMechE, (to be sought)8. Date of production/revisionRevision September 2021 AwardsType of awardDuration9. Final awardFoundation Degree (FD)2 years10. Intermediate awards  Programme Codes 11. JACS code(s) Select between one and three codes from the  HYPERLINK "https://www.hesa.ac.uk/support/documentation/jacs/jacs3-principal" \h HESA website.H71412. HECoS code(s) Select between one and three codes from the  HYPERLINK "https://www.hesa.ac.uk/innovation/hecos" \h HECoS vocabulary.100202 Programme Delivery 13. Mode of studyFull-time14. Mode of delivery 15. Background to the programme and subject area The Foundation Degree in Maintenance Engineering will be offered to students (via their employers) as the foundation phase knowledge element of a degree apprenticeship. Degree apprenticeships offer an apprentice the opportunity to combine working while studying for a work-based academic or vocational high-level qualification. These apprenticeships include the achievement of academic and vocational qualifications and learning from Level 4 upwards. Degree apprenticeships: are the latest model to be developed as part of degree apprenticeship standards, with apprentices achieving a full bachelors or masters degree as a core component of the apprenticeship. combine both higher and vocational education and fully test both the wider occupational competence and academic learning, either using a fully-integrated degree co-designed by employers and Higher Education Institutions, or using a degree plus separate end test of professional competence. This programme has been developed with employers and with reference to the Apprentice Standards which are developed by employer groups (known as trailblazers) and approved by Government. It has been designed as a progression route for Advanced Apprentices (in work in local engineering and manufacturing firms), for Degree Apprentices either with significant experience or as new employees, and/or entrants to Engineering, with A levels, and aims to provide the specialist knowledge and skills to complement the professional competence that the apprentices will be required to demonstrate. The aim of the Foundation Degree in Maintenance Engineering is to equip students with the knowledge and expertise to apply engineering concepts (science, mathematics, design skills) to the optimisation of equipment, procedures and resources to achieve better maintainability, reliability and availability of equipment. Alongside technical knowledge, students will develop their understanding of broader economic, social and environmental implications of maintenance engineering, enabling them to contribute to a competitive and sustainable manufacturing industry. In addition to developing critical thinking and robust analytical skills, students will develop teamwork, communication, practical laboratory skills and technical report writing. Student will develop the range of skills, knowledge and practical application needed to work towards Incorporated Engineer registration within a range of maintenance engineering contexts. In addition to the vocational emphasis of the programme, students will also benefit from the AMRCs research activity, which informs its teaching. The AMRC lecturers are active researchers solving real-life industrial problems in a variety of disciplines from design, tooling, factory layouts and manufacturing systems, machining and material selection. Their knowledge is up-to-date and includes relevant, current case studies.16. Programme aims The Universitys Mission is to educate others and ourselves and to learn through doing so, as a civic institution proud of its urban character, driving growth and vibrancy for the city, the region, and the globe. Our vision is research, teaching and learning together create a positive culture of higher education. The AMRC implements this through a strong commitment to local industry, with a large number of employers both within 91ֱ and the region working with the AMRC to address the engineering skills shortage by training and educating Advanced, Higher and Degree Apprentices. The AMRC has a strong commitment to both teaching and research and works to create and stimulate a commitment to self-learning and development in its students. The aims of the Foundation Degree are to: Provide access to an engineering foundation degree to students from a range of academic and social backgrounds; Provide students with a relevant, modern education based on the fundamental principles of maintenance engineering; Develop students within their professional working career in maintenance engineering; Foster safe and good laboratory practice; Develop interpersonal, problem solving and transferable skills appropriate to an engineer; Encourage students to think for themselves and develop a social awareness of the impact of engineering and manufacturing on society; Engender attitudes and provide skills which will promote lifelong learning. Develop students appreciation of the wider engineering context and commercial considerations affecting their work; Preparing students for Incorporated Engineer status through further study on a top up programme. 17. Programme learning outcomes Science and Mathematics (SM)SM1iKnowledge and understanding of the scientific principles underpinning relevant technologies, and their evolutionSM2iKnowledge and understanding of mathematics and an awareness of statistical methods necessary to support application of key engineering principlesEngineering Analysis (EA)EA1iAbility to monitor, interpret and apply the results of analysis and modelling in order to bring about continuous improvementEA2iAbility to apply quantitative methods in order to understand the performance of systems and componentsEA3iAbility to use the results of engineering analysis to solve engineering problems and to recommend appropriate actionEA4iAbility to apply an integrated or systems approach to engineering problems through know-how of the relevant technologies and their applicationDesign (D)D1iBe aware of business, customer and user needs, including considerations such as the wider engineering context, public perception and aestheticsD2iDefine the problem identifying any constraints including environmental and sustainability limitations; ethical, health, safety, security and risk issues; intellectual property; codes of practice and standardsD3Work with information that may be incomplete or uncertain and be aware that this may affect the designD4iApply problem-solving skills, technical knowledge and understanding to create or adapt designs solutions that are fit for purpose including operation, maintenance, reliability etcD5iManage the design process, including cost drivers, and evaluate outcomesD6Communicate their work to technical and non-technical audiencesEconomic, Legal, Social, Ethical and Environmental Context (EL)EL1Understanding of the need for a high level of professional and ethical conduct in engineering and a knowledge of professional codes of conductEL2Knowledge and understanding of the commercial, economic and social context of engineering processesEL3iKnowledge of management techniques that may be used to achieve engineering objectivesEL4iUnderstanding of the requirement for engineering activities to promote sustainable developmentEL5Awareness of the relevant legal requirements governing engineering activities, including personnel, health & safety, contracts, intellectual property rights, product safety and liability issuesEL6iAwareness of risk issues, including health & safety, environmental and commercial risk Engineering Practice (P)P1iKnowledge of contexts in which engineering knowledge can be applied (e.g. operations and management, application and development of technology, etc.)P2iUnderstanding of and ability to use relevant materials, equipment, tools, processes, or productsP3iKnowledge and understanding of workshop and laboratory practiceP4iAbility to use and apply information from technical literatureP6iAbility to use appropriate codes of practice and industry standardsP7Awareness of quality issues and their application to continuous improvementP11iAwareness of team roles and the ability to work as a member of an engineering teamAdditional General Skills (G)G1Apply their skills in problem solving, communication, information retrieval, working with others, and the effective use of general IT facilitiesG2Plan self-learning and improve performance, as the foundation for lifelong learning/CPDG3iPlan and carry out a personal programme of workG4iExercise personal responsibility, which may be as a team member 18. Learning and teaching methods Development of the learning outcomes is promoted through the following teaching and learning methods: All of the students taking this course of study will be in full time employment with an engineering employer. The professional skills developed during the students employment, e.g. the knowledge and application of manufacturing processes, professional conduct and social responsibility, report writing, team work and communication are expected to support many of the learning outcomes assessed through the course. Where specific opportunities arise for students to develop their learning based on their employment, appropriate skills will be embedded into the module design. Where students are working in the areas of industry which are studied in the course, students will be actively encouraged to contribute knowledge and experience from their employment to enrich group learning, for example by bringing videos, examples of products or practical engineering projects. The main teaching, learning and assessment methods adopted for each learning outcome are shown below. In most cases a combination of methods is used. The blended learning pedagogical model will be adopted where appropriate, with instructional content provided for independent study time so that contact time can be used for exercises, problem cases and discussion. Independent study is relevant to all modules and is intended to be used by students to watch pre-recorded lectures, with quizzes, available on-line through computers, laptops and tablets; read chapters from nominated textbooks and other material; prepare for contact time i.e. tutorials, problem classes, seminars; and develop coursework to improve the understanding of presented topics during the classes. Lectures (whether during contact time or recorded) are the principal means of imparting knowledge. Some lectures will be pre-recorded for independent study or captured and made available on-line through computers, laptops and tablets. Tutorials will be used to briefly and formatively assess independent study (the instructional content from lecture captures, case study examples and reading material). The main aim of tutorials is to explore topics in more detail either through structured discussion or case studies. Problem solving classes will provide time for students to identify specific problems, difficulties and solutions, to develop their confidence and competence in problem solving. Students will also be given more complex problems to solve in small groups or individually, with lecturer support. Laboratory classes provide opportunities for students to practice and develop a range of discipline-based techniques; apply and investigate theoretical and conceptual knowledge; develop experimental techniques and approaches, analysing, interpreting and presenting their findings and data; developing personal and transferable skills such as problem solving, team working, following protocols and working safely. Design classes enable students to practice design methods and to offer a design solution relevant to their workplace. The students will test their creativity, problem solving skills and will utilise team working, communication and presentation skills. Tackling a design challenge within their own organisation will also test students commercial awareness. In addition to planned teaching and learning activities, students are also expected to learn through the preparation of coursework assignments and other assessment activities which generally require students to seek additional information and work on their own, or in small groups, to develop understanding of the subject matter. 19. Assessment and feedback methods Opportunities to demonstrate achievement of the learning outcomes are provided through the following assessment methods: Knowledge and understanding are primarily assessed through written examinations and coursework, which includes oral presentations and written reports. Written examinations unseen examinations. Coursework submission designed to test knowledge and communication skills; these include design studies, computing assignments, and laboratory reports. Oral presentations these take the form of individual oral presentations or group presentations in which each group member plays a part. 20. Programme structure and student development The programme structure is modular and in each year students study modules worth a total of 120 credits. The first year of the Foundation Degree programme is taught through a series of compulsory 10 and 20 credit modules which are shared with students registered on the Foundation Degree programmes in Mechanical Manufacture and Maintenance Engineering. The core syllabus of six key threads (mathematics; electrical systems, manufacturing systems and materials, mechanical science, design, engineering practice) aim to develop the essential skills and knowledge in the fundamentals of engineering science, mathematics, professional engineering practice and design required of a professional engineer. The common first year also provides students with an opportunity to apply to transfer to either of these programmes at any time up the end of the first year, with the agreement of their employer. The second year continues with compulsory 20 credit modules within the six threads such as Further Mathematics and Computing for Engineering; Control and Automation; Professional Responsibility and Sustainable Manufacturing and Multidisciplinary Design, which are shared with other Foundation Degree programmes. There is also one group of elective modules which are particular to the Maintenance Engineering programme: Manufacturing Systems or Further Manufacturing Automation. Introduction to Asset Management is particular to the Maintenance Engineering programme. All modules on the Maintenance Engineering foundation degree will ensure that students acquire the necessary knowledge, understanding and skills to meet the programme objectives and sufficient preparation for the top up degree year, if they choose to continue their education. Students may graduate with a Foundation Degree or continue to take a top up degree in Maintenance Engineering which will allow them to then graduate with a BEng degree in Maintenance Engineering. Graduates may then take an MSc or equivalent in suitable subjects to meet the full educational requirements for CEng, giving additional flexibility and choice of career options.Level 1 (1st year) Students will consolidate their mathematical and engineering science knowledge and begin their academic introduction to manufacturing processes and materials engineering, professional development for engineers, operations management, electrical engineering and instrumentation, and design and CAD CAM. They will embark on practical experiments and be able to present, interpret and evaluate data. Design will require conceptual thinking, analysis, logical problem solving and presentation of a solution, enabling the development of communication and presentation skills. Students will develop their independent learning skills, team working and time management. The assessments will, where possible, relate to the students employment and job roles to enable the integration of the academic and work-based elements. Level 2 (2nd year) Students will develop a more extensive knowledge and deeper understanding of the principal areas of maintenance engineering, continuing with the main themes (mathematics, control and automation, manufacturing and materials, engineering science, design and engineering practice) as well as the specialist maintenance module - an introduction to asset management. Students will apply their knowledge to more advanced problem solving in multidisciplinary design. Detailed information about the structure of programmes, regulations concerning assessment and progression and descriptions of individual modules are published in the University Calendar available on-line at  HYPERLINK "http://www.sheffield.ac.uk/calendar" \h http://www.sheffield.ac.uk/calendar. 21. Criteria for admission to the programme A minimum of two A-Levels at grade B or above, including a mathematical based subject and a science, technology, engineering or an additional mathematics related subject; an Engineering BTEC level 3 with 120 credits at distinction and merit level; or equivalent qualifications such as Cambridge Technicals. Plus five GCSEs at grades 4 to 6, including mathematics, English and a science, technology or engineering related subject.22. Reference points The learning outcomes have been developed to reflect the following points of reference: Subject Benchmark Statements  HYPERLINK "https://www.qaa.ac.uk/quality-code/subject-benchmark-statements" https://www.qaa.ac.uk/quality-code/subject-benchmark-statements Framework for Higher Education Qualifications (2014)  HYPERLINK "https://www.qaa.ac.uk/docs/qaa/quality-code/qualifications-frameworks.pdf" https://www.qaa.ac.uk/docs/qaa/quality-code/qualifications-frameworks.pdf University Vision  HYPERLINK "/vision" /vision Learning and Teaching Strategy (2016-21)  HYPERLINK "/polopoly_fs/1.661828!/file/FinalStrategy.pdf" /polopoly_fs/1.661828!/file/FinalStrategy.pdf 23. Additional information Further information is available at  HYPERLINK "https://amrctraining.co.uk/apprenticeships/degree-apprenticeships-level-6" https://amrctraining.co.uk/apprenticeships/degree-apprenticeships-level-6 This specification represents a concise statement about the main features of the programme and should be considered alongside other sources of information provided by the teaching department(s) and the University. In addition to programme specific information, further information about studying at 91ֱ can be accessed via our Student Services web site at  HYPERLINK "http://www.shef.ac.uk/ssid" \h http://www.shef.ac.uk/ssid.     mecu002 - ver21-22 PAGE1 Programme Specification A statement of the knowledge, understanding and skills that underpin a taught programme of study leading to an award from 91ֱ  -.DEFGKXYlmnK       ;ܴhWh06>*hWh0>*hWh05>*hWh7B*CJaJphhWh0B*CJaJphhWh0CJaJ h05>*h0jhmHUmHnHu@ .F $IfgdW $d<gd0$a$gd0 $<a$gd0 FGYmobY $IfgdW (($IfgdWkd$$IfH0 g(   t 0n(44 HaApytWmnoff $IfgdWkd$$IfH0 g(   t 0n(44 HaApytWoff $IfgdWkd$$IfH0 g(   t 0n(44 HaApytWoff $IfgdWkdC$$IfH0 g(   t 0n(44 HaApytW off $IfgdWkd$$IfH0 g(   t 0n(44 HaApytW obY $IfgdW (($IfgdWkd$$IfH0 g(   t 0n(44 HaApytW obY $IfgdW (($IfgdWkd$$IfH0 g(   t 0n(44 HaApytW    oi^^^ $$IfgdW$gdWkdG$$IfH0 g(   t 0n(44 HaApytW   - . 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