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Journal of Nanoparticle Research

Erschienen in:

01.05.2013 | Research Paper

Fine scale characterization of surface/subsurface and nanosized debris particles on worn Cu–10 % Pb nanocomposites

verfasst von: Amit S. Sharma, Krishanu Biswas, Bikramjit Basu

Erschienen in: Journal of Nanoparticle Research | Ausgabe 5/2013

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Abstract

The identification of the damage mechanisms involved in the wear process demands the finer scale characterization of the surface, as well as the subsurface region of the wear scar region, and to this end, this article discusses the results obtained with Cu–10 wt% Pb-based metallic nanocomposites using a host of characterization techniques, including transmission electron microscopy and ion milling microscopy. Apart from finer scale characterization to understand deformation and cracking during the wear process, X-ray photoelectron spectroscopy analysis of wear debris confirms the occurrence of oxidation of Pb phase to Pb₃O₄. In order to understand the role of oxides on friction and wear, sliding wear tests in argon were also carried out and such tests did not result in the formation of any tribo-oxides, as confirmed using electron probe microanalysis. Conclusively, oxidative wear is attributed as the dominant wear mechanism in ambient conditions for Cu–10 wt% Pb composite.

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Basu B, Kalin M (2011) Tribology of ceramics and composites: materials science perspective. Wiley, New YorkCrossRef

Biswas KB, Galun R, Mordike BL, Chattopadhyay K (2005) Laser cladding of quasi-crystal-forming Al–Cu–Fe–Bi on an Al–Si substrate. Metall Mater Trans A 36A:1947–1964CrossRef

Bowden FP, Tabor D (1943) The lubrication by thin metallic films and the action of bearing metals. J Appl Phys 14:141–151CrossRef

Bowden FP, Tabor D (1950) The friction and lubrication of solids. Clarendon, Oxford

Buchanan VE, Molian PA, Sudarshan TS, Akers A (1991) Frictional behavior of non-equilibrium Cu–Pb alloys. Wear 146:241–256CrossRef

Cretegny I, Saxena A (2001) AFM characterization of the evolution of surface deformation during fatigue in polycrystalline copper. Acta Mater 49:3755–3765CrossRef

Don J, Sun TC, Rigney DA (1983) Friction and wear of Cu–Be and dispersion hardened copper systems. Wear 91:191–199CrossRef

Fleming JR, Suh NP (1977) Mechanics of crack propagation in delamination wear. Wear 44:39–56CrossRef

Ganapathi SK, Rigney DA (1990) An HREM study of the nanocrystalline material produced by sliding wear processes. Scr Metall Mater 24:1675–1678CrossRef

Groza JR, Gibeling JC (1993) Principles of particle selection for dispersion-strengthened copper. Mater Sci Eng A171:115–125

Hughes DA, Dawson DB, Korellis JS, Weingarten LI (1995) A micro-structurally based method for stress estimates. Wear 181–183:458–468

Jahanmir S, Suh NP (1977) Mechanics of subsurface void nucleation in delamination wear. Wear 44:17–38CrossRef

Kong HS, Ashby MF (1991) Frictional heating maps and their applications. Mater Res Soc Bull 16:41–48

Li J, Elmadagli M, Gertsman VY, Lo J, Alpas AT (2006) FIB and TEM characterization of subsurfaces of an Al–Si alloy (A390) subjected to sliding wear. Mater Sci Eng A 421:317–327CrossRef

Massalski TB, Murray JL, Bennett LH (1986) Binary alloy phase diagrams, vol I. ASM International, Ohio

Molian PA, Buchanan VE, Sudershan TS, Akers A (1991) Sliding wear characteristics of non-equilibrium Cu–Pb alloys. Wear 146:257–267CrossRef

Moore MA, Douthwaite RM (1976) Plastic deformation below worn surfaces. Metall Trans 7A:1833–1839

Morgan WE, Wazer JRV (1973) Binding energy shifts in the X-ray photoelectron spectra of a series of related group-IVa compounds. J Phys Chem 77:964–969CrossRef

Pathak JP, Tiwari SN (1992) On the mechanical and wear properties of copper–lead bearing alloys. Wear 155:37–47CrossRef

Prasad BK (2004) Sliding wear behavior of bronzes under varying material composition, microstructure and test conditions. Wear 257:110–123CrossRef

Rigney DA, Glaeser WA (1978) The significance of near surface microstructure in the wear process. Wear 46:241–250CrossRef

Sharma AS, Biswas K, Basu B, Chakravarty D (2011) Spark plasma sintering of nanocrystalline Cu and Cu–10 wt% Pb alloy. Metall Mater Trans A 42A:2072–2084CrossRef

Witney AB, Sanders PG, Weertman JR, Eastman JA (1995) Fatigue of nanocrystalline copper. Scr Metall Mater 33:2025–2030CrossRef

Zhang YS, Han Z, Wang K, Lu K (2006) Friction and wear behaviors of nanocrystalline surface layer of pure copper. Wear 260:942–948CrossRef

Zhang YS, Wang K, Han Z, Liu G (2007) Dry sliding wear behavior of copper with nano-scaled twins. Wear 262:1463–1470CrossRef

Titel: Fine scale characterization of surface/subsurface and nanosized debris particles on worn Cu–10 % Pb nanocomposites
verfasst von: Amit S. Sharma
Krishanu Biswas
Bikramjit Basu
Publikationsdatum: 01.05.2013
Verlag: Springer Netherlands
Erschienen in: Journal of Nanoparticle Research / Ausgabe 5/2013
Print ISSN: 1388-0764
Elektronische ISSN: 1572-896X
DOI: https://doi.org/10.1007/s11051-013-1675-5

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