[1] Birol Y. High temperature sliding wear behaviour of Inconel 617 and Stellite 6 alloys[J]. Wear, 269, 664-671(2010).
[2] RenzA, PrakashB, HardellJ, et al. High-temperature sliding wear behaviour of Stellite® 12 and Tribaloy® T400[J].Wear, 2018, 402/403: 148-159.
[3] Falqueto L E, Butkus D Jet al. Sliding wear of cobalt-based alloys used in rolling seamless tubes[J]. de Mello J D B, 376/377, 1739-1746(2017).
[4] Pala Z, Bai M W, Lukac F et al. Laser clad and HVOF-sprayed Stellite 6 coating in chlorine-rich environment with KCl at 700 ℃[J]. Oxidation of Metals, 88, 749-771(2017).
[5] Farnia A, Malek Ghaini F, Rao J C et al. Effect of Ta on the microstructure and hardness of Stellite 6 coating deposited by low power pulse laser treatments[J]. Surface and Coatings Technology, 213, 278-284(2012).
[6] Chen H, Pan C X. Study of microstructure and wear and corrosion resistance of Co-based alloy laser cladding[J]. Ordnance Material Science and Engineering, 25, 45-48(2002).
[7] Persson D H E, Coronel E, Jacobson S et al. . Surface analysis of laser cladded Stellite exposed to self-mated high load dry sliding[J]. Wear, 261, 96-100(2006).
[8] Gao J W, Li J, Shi C B et al. Effect of solution treatment on carbides in cobalt-base superalloy Stellite 6B[J]. Heat Treatment of Metals, 43, 62-67(2018).
[9] Cadenas M, Cuetos J M, Fernandez J E et al. Laser cladding of Stellite 6 on stainless steel diesel engine exhaust valves[J]. Revista De Metalurgia, 38, 457-463(2002).
[10] Vilar R M C. Microstructural features of consecutive layers of Stellite 6 deposited by laser cladding[J]. Surface and Coatings Technology, 153, 203-209(2002).
[11] Kashani H, Amadeh A, Ghasemi H M. Room and high temperature wear behaviors of nickel and cobalt base weld overlay coatings on hot forging dies[J]. Wear, 262, 800-806(2007).
[12] Inman I A, Rose S R, Datta P K. Studies of high temperature sliding wear of metallic dissimilar interfaces II: incoloy MA956 versus Stellite 6[J]. Tribology International, 39, 1361-1375(2006).
[13] Inman I A, Rose S R, Datta P K. Development of a simple ‘temperature versus sliding speed’ wear map for the sliding wear behaviour of dissimilar metallic interfaces[J]. Wear, 260, 919-932(2006).