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El. knyga: Sustainable Manufacturing [Wiley Online]

Edited by (University of Aveiro, Portugal)
  • Formatas: 246 pages
  • Serija: ISTE
  • Išleidimo metai: 20-Apr-2010
  • Leidėjas: ISTE Ltd and John Wiley & Sons Inc
  • ISBN-10: 1118621654
  • ISBN-13: 9781118621653
Kitos knygos pagal šią temą:
  • Wiley Online
  • Kaina: 174,45 €*
  • * this price gives unlimited concurrent access for unlimited time
Sustainable ManufacturingDidesnis paveikslėlis
  • Formatas: 246 pages
  • Serija: ISTE
  • Išleidimo metai: 20-Apr-2010
  • Leidėjas: ISTE Ltd and John Wiley & Sons Inc
  • ISBN-10: 1118621654
  • ISBN-13: 9781118621653
Kitos knygos pagal šią temą:
Wiley Online E-booksMore info about Wiley Online
Partnerių interneto svetainė: https://onlinelibrary.wiley.com/doi/book/10.1002/9781118621653
According to the NACFAM (National Council for Advanced Manufacturing –USA) Sustainable Manufacturing is defined “as the creation of manufactured products that use processes that are non-polluting, conserve energy and natural resources, and are economically sound and safe for employees, communities, and consumers.” The book covers Sustainable Manufacturing techniques such as materials and manufacturing for renewable energies; clean manufacturing technology; ecological manufacturing; energy-efficient manufacturing; remanufacturing; recycling of materials; environmentally conscious design and manufacturing processes; sustainable advanced manufacturing systems; manufacturability in sustainable product design; education and training for sustainable manufacturing.
Preface ix
Chapter 1 Environmental Impact in Micro-device Manufacturing
1(32)
Jong-Leng Liow
1.1 Introduction
2(5)
1.1.1 Sustainability in micro-manufacturing
5(2)
1.2 Role of LCA
7(7)
1.2.1 Energy considerations in micro-device manufacturing methods
10(4)
1.3 Energy consideration in micro-manufacturing
14(8)
1.3.1 Mass and energy balance
14(3)
1.3.2 Minimum work
17(5)
1.4 Energy consideration in micro-end-milling manufacturing
22(6)
1.4.1 Energy consumption with spindle and slide speed variation
23(4)
1.4.2 Efficiency of the machining process
27(1)
1.5 Conclusions
28(1)
1.6 References
29(4)
Chapter 2 Cutting Tool Sustainability
33(46)
Viktor P. Astakhov
2.1 Introduction
33(4)
2.2 Statistical reliability of cutting tools as quantification of their sustainability
37(13)
2.2.1 State of the art
37(1)
2.2.2 Cutting tool reliability concept
38(3)
2.2.3 Practical evaluation of tool reliability under invariable cutting conditions
41(9)
2.3 Construction of the Probability density function of the tool flank wear distribution with tool test results
50(8)
2.3.1 Simplified method
50(2)
2.3.2 Statistical analysis of tool wear curves
52(6)
2.4 Tool quality and the variance of tool life
58(1)
2.5 The Bernstein distribution
59(8)
2.6 Concept of physical resources of the cutting tool
67(9)
2.7 References
76(3)
Chapter 3 Minimum Quantity Lubrication in Machining
79(32)
Vinayak N. Gaitonde
Ramesh S. Karnik
J. Paulo Davim
3.1 Introduction
79(5)
3.1.1 Cutting fluids and problems related to cutting fluids
80(1)
3.1.2 Dry cutting and its limitations
81(1)
3.1.3 MQL and its performance in machining
81(2)
3.1.4 Limitations of MQL
83(1)
3.2 The State-of-the-art research for MQL in machining
84(6)
3.2.1 Experimental studies on MQL in drilling
84(2)
3.2.2 Experimental studies on MQL in milling
86(1)
3.2.3 Experimental studies on MQL in turning
87(2)
3.2.4 Experimental studies on MQL in other machining processes
89(1)
3.3 Case studies on MQL in machining
90(14)
3.3.1 Case study 1: analysis of the effect of MQL on machinability of brass during turning-ANN modeling approach
91(8)
3.3.2 Case study 2: selection of optimal MQL on machinability of brass during turning-Taguchi approach
99(5)
3.4 Summary
104(1)
3.5 Acknowledgments
105(1)
3.6 References
105(6)
Chapter 4 Application of Minimum Quantity Lubrication in Grinding
111(62)
Eduardo Carlos Bianchi
Paulo Roberto de Aguiar
Leonardo Roberto da Silva
Rubens Chinali Canarim
4.1 Introduction
111(3)
4.1.1 Concern about cutting fluids
113(1)
4.2 Minimum quantity lubrication
114(8)
4.2.1 Classification and design of MQL systems
116(2)
4.2.2 MQL application in grinding
118(4)
4.3 Results
122(47)
4.3.1 Plunge external cylindrical grinding
122(24)
4.3.2 Internal plunge grinding
146(8)
4.3.3 Surface grinding
154(15)
4.4 Conclusions
169(1)
4.5 Acknowledgments
170(1)
4.6 References
170(3)
Chapter 5 Single-Point Incremental Forming
173(38)
Maria Beatriz Silva
Niels Bay
Paulo A.F. Martins
5.1 Introduction
173(1)
5.2 Incremental sheet forming processes
174(5)
5.2.1 Single-point incremental forming
174(2)
5.2.2 Incremental forming with counter tool
176(1)
5.2.3 Two-point incremental forming
177(2)
5.3 Analytical framework
179(8)
5.3.1 Membrane analysis
181(1)
5.3.2 State of stress and strain
182(3)
5.3.3 Formability limits
185(2)
5.4 FE Background
187(4)
5.4.1 Modeling conditions
188(1)
5.4.2 Post-processing of results
189(2)
5.5 Experimental
191(4)
5.5.1 Forming and fracture forming limit diagrams
191(3)
5.5.2 SPIF experiments
194(1)
5.6 Results and discussion
195(8)
5.6.1 Stress and strain fields
196(3)
5.6.2 Formability limits
199(4)
5.7 Examples of applications
203(3)
5.7.1 Sector shower tray
203(3)
5.8 Conclusions
206(1)
5.9 References
206(5)
Chapter 6 Molding of Spent Rubber from Tire Recycling
211(30)
Fabrizio Quadrini
Alessandro Guglielmotti
Carmine Lucignano
Vincenzo Tagliaferri
6.1 Introduction
212(3)
6.2 State of the art of tire recycling
215(6)
6.3 Direct molding of rubber particles
221(4)
6.4 Experimental results
225(8)
6.5 Concluding remarks
233(1)
6.6 References
234(7)
List of Authors 241(4)
Index 245
J. Paulo Davim is Aggregate Professor in the Department of Mechanical Engineering of the University of Aveiro, Portugal and is Head of MACTRIB (Machining and Tribology Research Group). His main research interests include machining/manufacturing processes and tribology/surface engineering.
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