Sage Journals: Discover world-class research

Abstract

This paper describes a study of the influence of elemental nickel (Ni) and copper (Cu) elements on the tribological behaviour of a CoCr-based alloy. The tribology of CoCr-based alloys was examined by using a Bruker UMT-TriboLab machine with normal loads of 200 N, a frequency of 3 Hz, and a duration of 10 min. The Co70Cr20Ni5Cu5 alloy with 5wt-% Ni and 5wt-% Cu content showed the best wear property compared with other alloys, with a minimum friction coefficient of 0.147. The large improvement in wear resistance is related to the strongly inhibiting effect of crack initiation and growth in the worn surface, which reduces delamination wear. Because of the Co0.52Cu0.48 plastic deformation layer, hard phases like NiCoCr and CrCo can slip easily on the sliding interface and embed into the matrix, which may decrease delamination wear and reduce the crack growth rate.

Keywords

CoCr-based alloy powder metallurgy wear resistance mechanical property

Get full access to this article

View all access options for this article.

References

Cai

, Cui

, Liu

, . Microstructure and wear resistance of laser cladded Ni-Cr-Co-Ti-V highentropy alloy coating after laser remelting processing. Opt Laser Technol. 2018;99:276–281.

Cui

, Shen

, Manladan

, . Wear resistance of FeCoCrNiMnAlx high-entropy alloy coatings at high temperature. Appl Surf Sci. 2020;512:1–14.

, Shi

Microhardness, wear resistance, and corrosion resistance of AlxCrFeCoNiCu high-entropy alloy coatings on aluminum by laser cladding. Opt Laser Technol. 2021;134:106632.

Cai

, Gao

, Cai

, . Effects of multi-layer structure on microstructure, wear and erosion performance of the Cr/CrN films on Ti alloy substrate. Appl Surf Sci. 2019;483:661–669.

, Yuan

, Qiu

A model to describe the surface gradient-nanograin formation and property of friction stir processed laser Co–Cr–Ni–Mo alloy. Appl Surf Sci. 2014;308:176–183.

Patel

, Favaro

, Edirisinghe

, . Cobalt-based orthopaedic alloys: relationship between forming route, microstructure and tribological performance. Mater Sci Eng C. 2012;32:1222–1229.

, Leng

, Zhou

, . Corrosion behavior of a wear resistant Co-Mo-Cr-Si alloy in molten fluoride salts. J Nucl Mater. 2020;542:152529.

Yao

, Wu

JBC

, Yick

, . High temperature wear and corrosion resistance of a Laves phase strengthened Co–Mo–Cr–Si alloy. Mater Sci Eng A. 2006;435–436:78–83.

, Yi

, Zheng

, . Effect of normal load on two-body abrasive wear of an Fe-B-Cr-C based alloy with minor Cu and Ni additions. Wear. 2018;408–409:160–170.

10.

, Chen

, Xu

, . Effect of Ti addition on the sliding wear behavior of AlCrFeCoNi high-entropy alloy. Wear. 2020;462–463:203493.

11.

Akyol

, Algul

, Uysal

, . A novel approach for wear and corrosion resistance in the electroless Ni-P-W alloy with CNFs co-depositions. Appl Surf Sci. 2018;453:482–492.

12.

Nowacki

, Pieczonka

Dilatometric analysis of sintering of iron–boron–cobalt P/M metal matrix composites. J Mater Process Technol. 2004;157–158:749–754.

13.

Juanjuan Zhu

, Dwyer-Joyce

RS.

Friction and wear of Cu-15 wt%Ni-8 wt% Sn bronze lubricated by grease at room and elevated temperature. Wear. 2020;460–461:203474.

14.

Uzun

, Çetin

MS.

Investigation of characteristics of Cu based, Co-CrC reinforced composites produced by powder metallurgy method. Adv Powder Technol. 2021;32:1992–2003.

15.

Zhao

, Yang

, Torrens

, . Comparison of hot deformation behaviour and microstructural evolution for Ti-5Al-5V-5Mo-3Cr alloys prepared by powder metallurgy and ingot metallurgy approaches. Mater Des. 2019;169:107682.

16.

Hussainova

, Antonov

, Voltsihhin

Assessment of zirconia doped hard metals as tribomaterials. Wear. 2011;271:1909–1915.

17.

Wang

, Yin

, Zhang

, . Study on antiwear and repairing performances about mass of nano-copper lubricating additives to 45 steel. Phys Procedia. 2013;50:466–472.

18.

, Xing

, Lu

, . Effect of normal load on two-body abrasive wear of an Fe-B-Cr-C based alloy with minor Cu and Ni additions. Wear. 2018;408–409:160–170.

19.

Holmberg

, Laukkanen

, Turunen

, . Wear resistance optimisation of composite coatings by computational microstructural modelling. Surf Coat Technol. 2014;247:1–13.

20.

Gupta

, Kumar

, Parkash

, . Effect of sintering on wear characteristics of Fe-Al₂O₃ metal matrix composites. Proc Inst Mech Eng Part J J Eng Tribol. 2013;9:1–7.

21.

Jamwal

, Seth

, Kumar

, . Microstructural, tribological and compression behaviour of copper matrix reinforced with graphite-SiC hybrid composites. Mater Chem Phys. 2020;251:123090.

Friction and wear of cobalt–chromium–nickel–copper alloy in contact with tungsten-carbide-sintered balls

Abstract

Keywords

Get full access to this article

References