1. University of Strathclyde, Faculty of Engineering and DMEM ( 设计, 制造和工程管理 ) Prof. Xichun Luo 罗熙淳 Centre for Precision Manufacturing Department of Design, Manufacture and Enginering Management Faculty of Engineering University of Strathclyde E-mail: xichun.luo@strath.ac.uk

2. Background in Advanced Manufacturing Technology ( 先进制造技术 ) Leeds Cranfield Huddersfield London Edinburgh Glasgow Education 1998 年 3 月 -2002 年 3 月博士, 哈尔滨工业大学 2000 年 11 月 -2004 年 7 月博士, 英国 Leeds Metropolitan University Work Experience 2004 年 11 月 -2007 年 9 月博士后研究官, 英国 Cranfield University 大学, 2007 年 9 月 -2012 年 5 月讲师, 英国 Heriot-Watt 大学 (in Edinburgh) 2012 年 5 月 -2013 年 6 月准教授, 英国 Huddersfield 大学 2013 年 6 月至今, 教授, 英国 Strathclyde 大学

3. University of Strathclyde Glasgow United Kingdom Top 3 Engineering University in the UK Founded in 1796 ‘...a place of useful learning...’ Equal educational opportunities The largest universities in Scotland 原名英国皇家理工学院

4. Located in Glasgow, Scotland 600 kms Loch Ness London Highland

5. Scotland… Population of just over 5 million people. The two biggest cities are Glasgow (population approx. 750,000) and Edinburgh (approx. 500,000). About 80% of Scots live in the central part of Scotland; much of the rest is countryside, mountains and islands. Easy to travel round, well connected with direct flights to Europe, USA, SE Asia (including CHINA!) and beyond A busy Glasgow streetBeautiful beachesRugged mountains

6. Wonderful sights...

7. (Old) Famous Engineer Scots James Watt (unit of power – watts) James Clerk Maxwell Electromagnetic Equations Robert Watson Watt Radar Development John Logie Baird Inventor of TV Alexander Graham Bell Inventor of Telephone Lord Kelvin Kelvin Temperature

8. Modern Scottish Industry Scotland has a very strong modern industry base with many well known companies in electronics, electrical power & related industries. Strathclyde is one of the most industrially connected universities in the UK and our graduates end up in the world’s top organisations.

9. Glasgow – The University’s base 3 miles 4 miles

10. University of Strathclyde £43M annual research income £350M campus renewal City Centre Campus DMEM Department

11. Academic strengths The University of Strathclyde is an internationally leading technological university. The University’s strengths are in engineering, science, and business subjects, supported by arts, humanities, and languages. The Graduate Business School is internationally recognised, and holds all three major accreditations. The University has a history and tradition of conducting “real world” research and collaborating with industry. Teaching is commercially / industrially relevant, creating skilled and readily employable graduates.

12. 2012-2013 年度英国最佳大学 2013-2014 年度英国最佳科技成果转化奖

13. Eight Academic Departments 4 Faculties EngineeringBusinessScience Humanities, Arts and Social Sciences Architecture Bio-medical Engineering Civil Engineering Chemical & Process Engineering Design, Manufacture & Engineering Management Electronic & Electrical Engineering Mechanical & Aerospace Engineering Naval Architecture & Marine Engineering 设计，制造及工程管理 力学及宇航工程

14. International Reputation International students from 100 countries Research programmes with over 50 countries – China – Malaysia – Singapore – Canada – USA – Indonesia – Brazil – Thailand – Pakistan – Nigeria – Oman – India – Egypt

15. – James Blyth, built the first wind turbine, professor at Strathclyde – John Logie Baird, the inventor of Television studied engineering at Strathclyde – Archbald Page – Instrumental in founding the UK National Grid which started in Glasgow – Studied EEE at Strathclyde – Renowned for our close relationships with industry – Only UK Engineering Faculty with ten DTCs (equivalent to national key laboratories) – Largest Engineering Scholarship Programme in the UK – Largest Electrical Power Engineering research institute in Europe – One of the highest levels of Research funding in the UK - £100 million. Some highlights of Engineering Faculty 10 个国家重点实验室

16. 10 EPSRC Doctoral Training Centres Key National Laboratories Advanced Forming and Manufacture Medical Devices Wind Energy Oil and Gas Power Networks & Smart Grids Nuclear Power Optics and Photonics Technologies Systems Engineering Offshore Renewables Centre for Manufacturing and Crystalisation

17. Major Research Themes Energy – generation, smart grids, renewables Sensors and Asset Management Photonics Advanced Engineering and Manufacturing Bio-medical Engineering Information and Communications Systems Chemical Engineering – Fuel Cells, Nano materials Environmental Engineering Marine Engineering – Ships, Oil & Gas, off-shore wind

18. Faculty Students 3500 Undergraduate Students Over 40 undergraduate degree courses All courses professionally accredited Five of the top eight UK engineering UG courses (ranked by UCAS tariff points) Over 1000 Postgraduate Students 600 taught postgraduate students Over 40 taught (MSc) degrees Over 500 postgraduate research students PhD, EngD, MPhil, MRes International community of students (>800) and staff from over 80 countries

19. Why Study Engineering at Strathclyde? Flexible Courses –an extensive choice of degree courses and subject combinations. Professional Recognition – all Engineering degree programmes are accredited by the appropriate professional body. Career prospects – our excellent industrial links mean that 90% of our graduates are in work or take up further study six months after graduating Teaching Innovation – We offer interactive lecture rooms, high spec laboratories and state-of-the art research facilities as well as site visits and management training. Industrial Links– Extensive ties with industry ensure that our courses meet the changing needs of the workplace. Industrial sponsored facilities, centres and projects, placements and job opportunities.

20. Department of Design, Manufacture and Engineering Management DMEM = 机械设计制造和管理工程师 create make manage DMEM DMEM combines teaching of Art, Manufacturing and Business

21. Rapid Prototyping Facility 3D Printing 3 and 4 axis CNC routers Engraver Fused Deposition Modelling Laser cutter/etcher Vacuum forming and casting Reverse Engineering Capability 3D Laser Scanner 3D Colour Laser Scanner Stereo projector Touch Probe Virtual Prototyping Facility Prototyping Facilities Digital Design & Manufacture Studio

22. DMEM Research groups and clusters Advanced design and manufacturing hub Advanced Forming Research Centre Advanced Forming Research Centre Design research group Design research group Space Mechatronic Systems Technology Laboratory Space Mechatronic Systems Technology Laboratory Strathclyde Institute for Operations Management Strathclyde Institute for Operations Management Centre for Precision Manufacturing Centre for Precision Manufacturing Remanufacturing group Remanufacturing group

23. Advanced Forming Research Centre: World Class Manufacturing Research Facilities £40 million state of the art research centre supported by industry, 50 fulltime manufacturing researchers Leading partner in largest UK Government High Value Manufacturing initiative www.strath.ac.uk/afrc New extension opening 2014 Three major investments £3.5M Largest research Super Plastic Forming (SPF) press in Europe (1,200 tonnes, 1,050C) £1.6M Largest three-roller Flow Forming machine in the UK £2 million rotary forge first in a research facility Super Plastic Forming Flow Forming Rotary Forging New Production Technologies= New Production Processes

24. Internationally leading research centre in advanced manufacturing 3 members of academic staff, two tutors and 35 researchers (11 Research Associates and Assistants, 17 PhD students, 2 EngD students and 5 Visiting Scholars Key priority areas: – Precision material forming and micro manufacturing – Precision engineering and ultra-precision machining – Advanced light metals technology – Multiscale modelling of materials and manufacturing processes Centre for Precision Manufacturing

25. Centre for Precision Manufacturing (CPM) Over the last 10 years, members of the centre have given keynote speeches and invited lectures at more than 30 conferences and workshops, and were also interviewed by several high-profile international magazines, including USA's MICROmaufacturing Magazine, EC magazine “SME Update” and "Eureka" Magazine, as well as being advisor to the International Commercial Micro- Manufacturing Magazine. Besides transfer of knowledge/technology to industries through various funded projects, DMEM-led EU MASMICRO project generated 135 publications, 13 patents, 4 spin-off companies and a series of industrial technologies and machines. 18 industry participating companies have benefited from implementing the findings from the project …… CPM’s research in Precision Manufacturing has generated significant impact ……

26. Focus areas – Robotics – Mechatronic system development methodologies and mechatronic system modelling and simulation platforms – Human interaction and integration technology – Novel and smart space mechanisms and mechatronic devices development and prototyping – Mechatronic solutions for advancing manufacturing techniques for large, one-off and complex systems Space Mechatronic Systems Technology Laboratory

27. Four undergraduate programmes… Product Design Engineering = Engineering Design Product Design & Innovation = Industrial Design Production Engineering & Management (PEM) = Manufacturing Engineering Sports Engineering MechanicalElectrical Design Sport

28. Ten postgraduate programmes… Advanced Manufacturing: Technology and Systems Mechatronics & Automation Computer Aided Engineering Design Product Engineering Design Digital Creativity Sustainable Engineering: Sustainable Product Development Supply Chain Management Operations Management in Engineering Lean Six Sigma for Process Excellence Global Innovation Management

29. Hammermen Awards & Prince Philip Prize Jonathan Marks and Liam Liu 2011 Susie Smart and Mark Hamilton, 2012 DMEM Graduates get good jobs because they are world class

30. Michael Aldridge Young Design Engineer of the Year 2012 awarded at the British Engineering Excellence Awards UK Young Design Engineer of the Year 2012

31. Top UK entrepreneur Santander Universities Entrepreneurship Awards and winner of Young Innovators Challenge UK wide - 2013 Victoria Hamilton

32. Student-industry interaction A Gala Dinner is held every year, which enables students to network with graduate recruiters.

33. After Graduation our students go all over the world

34. Graduate Destinations

35. Articulation Arrangements

36. Articulation Programmes Undergraduate & Postgraduate pathways 2+2 (Double BEng (UK & China)) 3+2 (BEng (China)&MEng (UK) 4+1 (BEng (China) & MSc(UK) 3+1+1 (Beng (China)+MSc(UK)) Short term undergraduate student study in the UK Jointly supervised PhD programmes for academic staff from China Academic visitors

37. {At Strathclyde } PhD M.Sc Year 4 Year 3 Year 2 Year 1 {at your university in China} 2+2 entry 4+1 entry B.Eng (Hons) + M.Sc + PhD B.Eng (Hons) + M.Sc B.Eng(Hons) B.Eng(Hons) + PhD M.Sc 2+2 & 4+1 Degree Structure

38. Instructional M.Sc M.Sc ( 1 Year, 12 months continuous) Instructional courses + small project (3 months) M.Sc (2 Year, 24 months continuous) Advanced Electrical Power Engineering. Instructional courses + big project (≈ 12 months) Examination on project is more intense.

39. 2+2, 2+3, 3+1+2 & 4+1 Admissions Direct entry to 3rd year at Strathclyde after 2 years at University in China. Direct entry to MSc after BEng degree. English Language: IELTS 6.5 or 6.0 with one free pre-sessional English course. – Possible entry with IELTS 5.5 (2+2 only) – No sub-band can be less than 5.5 (Visa requirement) Partial scholarship equivalent to 15% of tuition fee per year.

40. During the first two years students take core subjects to develop their numerical, engineering, technology and business skills. During the latter two years you will be engaged in: an industry focused multi-disciplinary group project an individual project discipline specific modules such as: – Advanced design methods (PDE) – Advanced manufacturing and operations management (PEM) – Bioengineering and sports products (SE) – Industrial design and business management (PDI) The 2+2 or 2+3 programme

41. YearDesign Manufacturing & Management IntegrativeOther Elective/ Optional 1 Design 1 Technology Concepts Introduction to Production Eng and Management Integrating Studies 1 Engineering Mathematics Mechanical Engineering 1 Human anatomy and physiology Entrepreneurship Theory and Practice 2 Design 2 Design Prototyping Production Techniques 1 Design and Manufacturing Management Integrating Studies 2 Electrical and Electronic Engineering Mechanical Engineering 2 Biomechanics of human movement – theory Physiology of sport and exercise Entrepreneurship 3 Design Emotion and Experience Design Interaction Mechatronics Design and Applications Product Development Engineering Design Innovation Management Production and Operations Management Manufacturing Production Techniques 2 Integrating Studies 3 Biomechanics of human movement – measurement Sports Injury and rehabilitation 4Advanced Design Methods Quality Management Advanced Product Design and Manufacture Individual Project 1 Product Development Project 1 Advanced topics in human movement Orthopaedic devices Course Structure and Syllabus Your home university 2 + 2 University of Strathclyde

42. YearDesign Manufacturing & Management IntegrativeOptions Elective/ Optional 3 Design Emotion and Experience Design Interaction Mechatronics Design and Applications Product Development Engineering Design Innovation Management Production and Operations Management Manufacturing Production Techniques 2 Integrating Studies 3 Biomechanics of human movement – measurement Sports Injury and rehabilitation 4 Advanced Design Methods Quality Management Advanced Product Design and Manufacture Individual Project 1 Industrial Group Project Advanced topics in human movement Orthopaedic devices Each student does 8 subjects a year, Each degree has different choice of modules 2+2 = Four Year Degree called a BEng BEng PEM Degree

43. YearDesign Manufacturing & Management IntegrativeOther Elective/ Optional 3 Design Emotion and Experience Design Interaction Mechatronics Design and Applications Product Development Engineering Design Innovation Management Production and Operations Management Manufacturing Production Techniques 2 Integrating Studies 3 Biomechanics of human movement – measurement Sports Injury and rehabilitation 4 Advanced Design Methods Quality Management Advanced Product Design and Manufacture Individual Project 1 Product Development Project 1 Advanced topics in human movement Orthopaedic devices 5 Global Product Development Global Trends, Strategy & Technology Managing Value and Supply Networks Individual Project 2 Research Studies Product Development Project 2 2+3 = Five Year Degree called a MEng MEng PEM Degree