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El. knyga: Tribocorrosion: Fundamentals, Methods, and Materials

Edited by (Lecturer, Mechanical Engineering, University of Nevada, USA), Edited by (Associate Professor, Mechanical Engineering, University of Nevada, USA), Edited by (Research Assistant, University of Nevada, USA)
  • Formatas: EPUB+DRM
  • Išleidimo metai: 27-Apr-2021
  • Leidėjas: Academic Press Inc
  • Kalba: eng
  • ISBN-13: 9780128189177
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Tribocorrosion: Fundamentals, Methods, and MaterialsDidesnis paveikslėlis
  • Formatas: EPUB+DRM
  • Išleidimo metai: 27-Apr-2021
  • Leidėjas: Academic Press Inc
  • Kalba: eng
  • ISBN-13: 9780128189177
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Tribocorrosion: Fundamentals, Methods, and Materials provides a balanced coverage of recent advancements in both experimental and computational areas of tribocorrosion, covering the basic concepts of tribology and electrochemistry, as well as testing set-ups, protocols, electrochemical methods, and more. It outlines experimental methods, demonstrating the different effects of material loss due to mechanical and electrochemical actions and looks at their effects in applied automotive, aerospace and biomedical settings. Standard testing protocols, tribocorrosion mechanisms in sliding contacts, and modeling and simulation techniques are all covered at length, as is bio-tribocorrosion and the best ways to prevent it.
  • Provides a complete overview of tribocorrosion testing, experimentation and modeling methods that in turn empower safer, environmentally-friendlier and cost-saving applications
  • Balances experimental and computational methods, thus encouraging readers to define and develop experimental and investigative techniques specific to their tribo-system of interest
  • Covers tribocorrosion behavior in passive and non-passive metals and alloys, coatings, modified surfaces, metal matrix composites, and more
List of contributors
ix
1 Introduction to tribocorrosion
Arpith Siddaiah
Ashish Kasar
Rahul Ramachandran
Pradeep L. Menezes
1.1 Background
1(4)
1.2 Measurement techniques
5(9)
1.3 Summary
14(1)
Acknowledgment and funding information
14(1)
References
14(3)
2 Experimental investigation of tribocorrosion
R. Keshavamurthy
C.S. Ramesh
Pradeep Kumar
Vijay Tambrallimath
2.1 Introduction
17(2)
2.2 Trihocorrosion: evaluation techniques, applications, and limitations
19(4)
2.3 Influential factors of tribocorrosion
23(2)
2.4 Challenges in the tribocorrosion measurement
25(1)
2.5 Tribocorrosion behavior of aluminum-based in situ composite: a case study
26(13)
2.6 Conclusions
39(1)
References
40(3)
3 Electrochemical methods in tribocorrosion
Shashi Bhushan Arya
Fredy James Joseph
3.1 Introduction
43(1)
3.2 Need of tribocorrosion study
44(1)
3.3 Tribocorrosion behavior of coatings
45(3)
3.4 Applications of tribology and tribocorrosion studies
48(1)
3.5 Passivation in metals
49(1)
3.6 Electrochemical testing for corrosion studies
50(5)
3.7 Triboelectrochemical experiments
55(1)
3.8 Effect of applied potential on friction coefficient
55(3)
3.9 Synergism of wear and corrosion
58(3)
3.10 Potentiostat for electrochemical measurements
61(4)
3.11 Examples of triboelectrochemical studies
65(10)
3.12 Limitations of electrochemical techniques in tribocorrosion studies
75(1)
3.13 Summary
75(1)
References
75(4)
4 Tribocorrosion mechanisms in sliding contacts
M. Venkatesh
R. Salloom
A.V. Mohan Rao
A.V. Aditya
4.1 Introduction
79(1)
4.2 Tribocorrosion in cast-wrought steels
80(3)
4.3 Tribocorrosion and passivation
83(2)
4.4 Tribocorrosion of powder metallurgy parts
85(2)
4.5 Tribocorrosion of laser-processed parts
87(1)
4.6 Conclusion and future scope
88(1)
Acknowledgements
89(1)
References
89(4)
5 Tribocorrosion aspects of implant coatings: Hip replacements
Kai-Yuan Cheng
Divya Bijukumar
Maria Runa
Michael McNallan
Mathew Mathew
5.1 Introduction
93(6)
5.2 Surface coatings/modifications on the implant
99(3)
5.3 Surface coatings/modifications on the implant surface to improve tribocorrosion resistance
102(11)
5.4 Current setback of the coatings applied on biomedical implants
113(6)
5.5 Summary
119(1)
Acknowledgments
119(1)
References
119(8)
6 Tribocorrosion of hard coatings and thin films
Manel Rodriguez Ripoll
Hector Torres
6.1 Introduction
127(1)
6.2 Titanium-based nitride coatings
128(1)
6.3 Tribocorrosion of titanium-based nitride coatings
129(7)
6.4 Chromium-based nitride coatings
136(1)
6.5 Tribocorrosion of chromium-based nitride coatings
136(7)
6.6 Tribocorrosion of other nitride coatings
143(2)
6.7 Diamond-like carbon coatings
145(1)
6.8 Tribocorrosion of DLC coatings
146(8)
6.9 Tribocorrosion of transition metal, transition metal carbide, and transition metal boride coatings
154(2)
6.10 Tribocorrosion of nanostructured multilayer coatings
156(4)
6.11 Nanostructured coatings and thin films
160(3)
6.12 Design guidelines and outlook
163(2)
References
165(8)
7 Importance of in vitro assessment of total hip arthroplasty using hip simulator and preliminary results
Ashirbad Jana
Anirban Basumataray
S. Senthilvelan
Subramani Kanagaraj
7.1 Introduction
173(2)
7.2 Evolution of bearing combination in total hip replacement
175(3)
7.3 Total hip replacement statistics
178(2)
7.4 Preclinical evaluation of the bearing material
180(7)
7.5 Hip joint wear simulator
187(1)
7.6 Results and discussion
188(6)
7.7 Future of hip simulator studies
194(1)
7.8 Conclusion
195(1)
Acknowledgment
195(1)
References
195(4)
8 Computational methods in tribocorrosion
Ali Ghanbarzadeh
A. Neville
8.1 Introduction
199(1)
8.2 Mechanistic models of tribocorrosion
200(10)
8.3 Deterministic tribocorrosion models
210(3)
8.4 Summary and fumre directions
213(2)
References
215(2)
Index 217
Arpith Siddaiah is a Ph.D. candidate at the University of Nevada, Reno. His research interests include the study of tribology, tribocorrosion, corrosion, surface energy, surface enhancements and texturing, laser-based tribological enhancements, nanocomposite coatings, and additive manufactured metallic materials. His expertise in tribology, surface engineering, CAD/CAM, GD&T, and automated manufacturing has enabled him to be involved in innovative R&D projects and produce 19 research articles (5 more to be published by the end of the year), 14 conference publications, and 4 patents in progress Dr. Ramachandran received his Ph.D. in mechanical engineering from the University of Wisconsin-Milwaukee. During his Ph.D. he worked on engineering and applications of hydrophobic and icephobic materials. He currently teaches courses on computer methods for engineers, dynamics, and heat transfer. His research interests include surface engineering, wetting, adhesion, and hydrophobic and icephobic materials. Dr. Pradeep L. Menezes is an Associate Professor in the Department of Mechanical Engineering at the University of Nevada, USA. Before joining this university, he worked as an Adjunct Assistant Professor at the University of WisconsinMilwaukee (UWM), and as a Research Assistant Professor at the University of Pittsburgh. Dr. Menezess productive research career has produced more than several peer-reviewed journal publications book chapters, books related to tribology and a patent. He teaches Introduction to Tribology, Advanced Tribology, Surface Engineering, Introduction to Manufacturing Processes, Mechanical Design, and Engineering Composites. He participated in many national and international conferences in roles such as conference paper reviewer, conference review committee member, conference technical committee member, session chairman, Paper Solicitation Chair and technical session organizer.
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