- Hauptmenü-

Kategorienanzeige

MAB

Advances in Sustainable Manufacturing: Proceedings of the 8th Global Conference on Sustainable Manufacturing
Kategorie	Beschreibung
036a	XA-DE‡XD-US
037b	eng
077a	348533489 Buchausg. u.d.T.: ‡Advances in sustainable manufacturing
087q	978-3-642-20182-0
100	Seliger, Günther
104b	Khraisheh, Marwan M.K.
108b	Jawahir, I. S.
331	Advances in Sustainable Manufacturing
335	Proceedings of the 8th Global Conference on Sustainable Manufacturing
410	Berlin, Heidelberg
412	Springer-Verlag Berlin Heidelberg
425	2011
425a	2011
433	Online-Ressource (XI, 406p. 341 illus., 216 illus. in color, digital)
451b	SpringerLink. Bücher
501	Includes bibliographical references
517	Advances in Sustainable Manufacturing; Preface; Table of Contents; 1 Engineering Education; Curriculum Design for Sustainable Engineering - Experiences from the International Master Program "Global Production Engineering; Abstract; Keywords:; 1 NEED FOR INNOVATION; 2 POTENTIAL FOR NEW PROCESSES AND PRODUCTS; 3 MARKET MODEL FOR RESEARCH AND EDUCATIONG; 3.1 Job Market; Engineers; Organizations; Society; 3.2 Educational Market; Engineers; Society; University; 4 CURRICULUM DESIGN; 4.1 Learning and Teaching Styles; 4.2 Experience-Based Learning; 4.3 Curriculum Design for Sustainable Development. 5 GLOBAL PRODUCTION ENGINEERING (GPE)5.1 Overview and History; 5.2 Internationality; 5.3 Market-Driven Curriculum; Customer expectations; Employability; 6 REFERENCES; Future Trends in Engineering Education and Research; Abstract; Keywords:; 1 INTRODUCTION; 2 ENGINEERING IN SOCIETY; 2.1 Socio-Technical Systems; 2.2 Why a Socio-Technical System?; 2.3 Trends In The Socio-technical System; 3 SOCIETY AND EDUCATION OF ENGINEERS; 3.1 Social Needs And Responsibility; 4 ENGINEERING AND RESEARCH INTO THE FUTURE; 5 SUMMARY; 6 REFERENCES; BIOGRAPHY:; Sustainability in Education; Abstract; Keywords:. 1 INTRODUCTION2 REQUIREMENTS ON FURTHER EDUCATION; 3 METHOD ANALYSIS IN COMPETENCE MANAGEMENT; 3.1 Approaches to competence management; 3.2 Categories of qualificational measures; 4 CONCEPT OF AN ASSISTANCE SYSTEM; 4.1 Methodology of training scheduling; 4.2 Definition of a taxonomical competence net for the Application to Manufacturing Metrology; 5 PREREQUESITES IN BASIC EDUCATION FOR SUCCESFUL FURTHER QUALIFICATION; 6 CONCLUSION AND OUTLOOK; 7 REFERENCES; Sustainability in Production Engineering Holistic Thinking in Education -; Abstract; Keywords:; 1 INTRODUCTION. 1.1 Scientific surroundings of the TU Braunschweig1.2 Educational background in the field of ESD; 2 SUSTAINABILTY IN PRODUCTION ENGINEERING EDUCATIONAL OPPORTUNITIES AND CHALLENGES; 3 EDUCATIONAL CONCEPT; 3.1 Lecture; 3.2 Lecture accompanied tutorial; 3.3 Laboratory; 4 STUDENT'S FEEDBACK; 5 SUMMARY; 6 REFERENCES; Sustainable Manufacturing Using a Global Education Concept for Coordinate Metrology with a Blended Learning Approach; Abstract; Keywords; 1 INTRODUCTION; 2 SUSTAINABILITY OF LEARNING CONCEPTS; 2.1 Conventional learning concepts; 2.2 Blended learning. 3 BLENDED LEARNING FOR COORDINATE METROLOGY IN MANUFACTURING3.1 Manufacturer-independent training concept CMTrain; 4 SUSTAINABILITY FACTS AND FIGURES IN PRACTICE; 4.1 Economic aspects; 4.2 Environmental sustainability; 4.3 Social sustainability; 5 FURTHER DEVELOPMENTS; 6 ACKNOWLEDGEMENTS; 7 REFERENCE; Manufacturing Sustainability: Aligning Youth Mindsets; Abstract; Keywords:; 1 INTRODUCTION; 2 HANDS-ON PROGRAMS; 3 TIP ACTIVITIES; 4 TIAI GAME; 5 TIAI AN EXAMPLE - "ECOWATERS"; 6 ANALYSES AND DISCUSSION; 7 OVERALL CONCLUSION; 8 ACKNOWLEDGEMENTS; 9 REFERENCES; 2 Entrepreneurship. Science Parks as Main Driver for the Development of National Innovation Systems in Resources-driven Economies! The Importance of
527	Buchausg. u.d.T.: ‡Advances in sustainable manufacturing
540a	ISBN 978-3-642-20183-7
700	\|TGXT
700	\|TEC020000
700b	\|670
700b	\|658.5
700c	\|TJ241
700g	1278809228 ZM 1900
700g	1272123294 ZL 3265
700g	1270697935 AR 26600
750	Non-renewable materials can no longer be disposed once humankind's ever increasing needs cannot be fulfilled anymore due to limited resources. Reuse and recycling become inevitable requirements for product and process design. Renewable resources must not be consumed in quantities higher than can be regained. New technologies have to be developed and applied for a Sustainable Product Development and Life Cycle Engineering to fulfill the needs of humankind, protecting public health, welfare, and environment. The 8th Global Conference on Sustainable Manufacturing brings together some of the world's leading experts to present a scientific conference in Abu Dhabi, one of the world's fastest growing economies and a global leader in the development of sustainable technologies. The conference will focus on 7 areas: Value adding by sustainable manufacturing in the UAE Potentials of renewables Education for sustainability engineering Green supply chain and transportation Microelectronics and resource efficiency Technology driven startups Sustainable products and manufacturing processes
902s	211297348 Fertigungstechnik
902s	20969405X Produktentwicklung
902s	211272418 Nachhaltigkeit
902s	209202254 Recycling
012	345802438
081	Seliger, Günther <P>: Advances in Sustainable Manufacturing
100	Springer E-Book
125a	Elektronischer Volltext - Campuslizenz
655e	$uhttp://dx.doi.org/10.1007/978-3-642-20183-7