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Erschienen in:

2013 | OriginalPaper | Buchkapitel

1. Fundamentals of Engineering Surfaces

verfasst von : Pradeep L. Menezes, Satish V. Kailas, Michael R. Lovell

Erschienen in: Tribology for Scientists and Engineers

Verlag: Springer New York

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Abstract

Understanding engineered surfaces is very important for solving many scientific problems that involve friction, contact mechanics, heat conduction, electric current conduction, and component design. In this chapter, the fundamentals of engineering surfaces and surface texturing are discussed. Various surface layer types are defined, and techniques for generating and characterizing them are presented. Surface roughness measurement techniques to obtain and define roughness parameters using surface profilometry and optical methods are discussed in detail. Surface textures and structures are then classified in terms of various roughness parameters. Finally, experimental results that demonstrate the influence of surface texture on friction are discussed.

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Vorheriges Kapitel Erratum

Nächstes Kapitel Friction and Wear

Nur mit Berechtigung zugänglich

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Menezes PL, Kishore, Kailas SV (2008) Effect of surface roughness parameters and surface texture on friction and transfer layer formation in tin-steel tribo-system. J Mater Process Technol 208(1–3):372–382CrossRef

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Menezes P, Kishore K, Kailas S (2009) Influence of roughness parameters and surface texture on friction during sliding of pure lead over 080 M40 steel. Int J Adv Manuf Technol 43(7):731–743CrossRef

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Menezes PL, Kishore, Kailas SV (2008) On the effect of surface texture on friction and transfer layer formation—a study using Al and steel pair. Wear 265(11–12):1655–1669CrossRef

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Menezes PL, Kishore, Kailas SV (2009) Influence of inclination angle of plate on friction, stick-slip and transfer layer-A study of magnesium pin sliding against steel plate. Wear 267(1–4):476–484CrossRef

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Menezes PL, Kishore, Kailas SV, Bobji MS (2010) Influence of tilt angle of plate on friction and transfer layer-A study of aluminium pin sliding against steel plate. Tribol Int 43(5–6):897–905CrossRef

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Menezes PL, Kishore, Kailas SV, Lovell MR (2011) Influence of inclination angle and machining direction on friction and transfer layer formation. J Tribol Trans Asme 133(1)

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Menezes PL, Kishore, Kailas SV, Lovell MR (2010) Response of materials as a function of grinding angle on friction and transfer layer formation. Int J Adv Manuf Technol 49(5–8):485–495CrossRef

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Menezes PL, Kishore, Kailas SV, Lovell MR (2011) Response of materials during sliding on various surface textures. J Mater Eng Perform 20(8):1438–1446CrossRef

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Menezes P, Kishore K, Kailas S, Lovell M (2011) Role of surface texture, roughness, and hardness on friction during unidirectional sliding. Tribol Lett 41(1):1–15CrossRef

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Menezes PL, Kishore, Kailas SV, Kishore K, Lovell MR (2011) Factors influencing stick-slip motion: effect of hardness, crystal structure and surface texture. ASME Conf Proc 2011(54747):71–73

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Menezes PL, Kishore, Kailas SV (2009) Role of surface texture of harder surface on subsurface deformation. Wear 266(1–2):103–109CrossRef

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Menezes PL, Kishore, Kailas SV (2008) Subsurface deformation and the role of surface texture—a study with Cu pins and steel plates. Sadhana Acad Proceed Eng Sci Compendex(3):191–201

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Menezes PL, Kumar K, Kishore, Kailas SV (2009) Influence of friction during forming processes—a study using a numerical simulation technique. Int J Adv Manuf Technol 40(Compendex):1067–1076CrossRef

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Menezes PL, Kishore, Kailas SV (2010) Influence of die surface textures during metal forming—a study using experiments and simulation. Mater Manuf Process 25(9):1030–1039CrossRef

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Menezes PL, Kishore, Kailas SV, Lovell MR (2012) Analysis of strain rates and microstructural evaluation during metal forming: role of surface texture and friction. Tribol Trans 55(5):582–589CrossRef

39.

Menezes PL, Kishore, Kailas SV (2009) Studies on friction and formation of transfer layer when Al-4Mg alloy pins slid at various numbers of cycles on steel plates of different surface texture. Wear 267(1–4):525–534CrossRef

40.

Menezes PL, Kishore, Kailas SV, Lovell MR (2011) The role of surface texture on friction and transfer layer formation during repeated sliding of Al–4Mg against steel. Wear 271(9–10):1785–1793CrossRef

41.

Menezes PL, Kishore, Kailas SV, Lovell MR (2013) Tribological response of soft materials sliding against hard surface textures at various numbers of cycles. Lubricat Sci 25(2):79–99

Titel: Fundamentals of Engineering Surfaces
verfasst von: Pradeep L. Menezes
Satish V. Kailas
Michael R. Lovell
Verlag: Springer New York
Buch: Tribology for Scientists and Engineers
Print ISBN: 978-1-4614-1944-0

Electronic ISBN: 978-1-4614-1945-7

Copyright-Jahr: 2013
DOI: https://doi.org/10.1007/978-1-4614-1945-7_1

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