https://orcid.org/0000-0002-2132-4712
References
- Li Y, Li H, Katgerman L, et al. Recent advances in hot tearing during casting of aluminium alloys. Prog Mater Sci. 2021;117:100741. DOI:10.1016/j.pmatsci.2020.100741.
- Zheng Q, Zhang L, Jiang H, et al. Effect mechanisms of micro-alloying element La on microstructure and mechanical properties of hypoeutectic Al–Si alloys. J Mater Sci Technol. 2020;47:142–151.
- Chi Y, Gu G, Yu H, et al. Laser surface alloying on aluminum and its alloys: a review. Opt Laser Eng. 2018;100:23–37.
- Sun YJ, Yang R, Xie L, et al. Interfacial bonding and corrosion behaviors of HVOF-sprayed Fe-based amorphous coating on 8090 Al–Li alloy. Surf Coat Technol. 2022;436:128316.
- Chi Y, Meng X, Dou J, et al. Laser alloying with Fe-B4C-Ti on AA6061 for improved wear resistance. Surf Eng. 2021;37(12):1503–1513.
- Wu J, Zhang SD, Sun WH, et al. Influence of oxidation related structural defects on localized corrosion in HVAF-sprayed Fe-based metallic coatings. Surf Coat Technol. 2018;335:205–218.
- Wu NC, Chen K, Sun WH, et al. Correlation between particle size and porosity of Fe-based amorphous coating. Surf Eng. 2018;35(1):37–45.
- Spies HJ. Surface engineering of aluminium and titanium alloys: an overview. Surf Eng. 2010;26(1–2):126–134.
- Siddiqui AA, Dubey AK. Recent trends in laser cladding and surface alloying. Opt Laser Technol. 2021;134:106619.
- Manco E, Cozzolino E, Astarita A. Laser polishing of additively manufactured metal parts: a review. Surf Eng. 2022;38(3):217–233.
- Sun G, Fang X, Tong Z, et al. Effect of laser shock peening on aluminium alloy laser-welds. Surf Eng. 2016;32(12):943–948.
- Luo J, Sun W, Duan R, et al. Laser surface treatment-introduced gradient nanostructured TiZrHfTaNb refractory high-entropy alloy with significantly enhanced wear resistance. J Mater Sci Technol. 2022;110:43–56.
- Shahzad A, Zadorozhnyy VY, Pavlov MD, et al. Deposition of the Ti-Al coatings on different metallic substrates by mechanical alloying and subsequent laser treatment. J Alloy Compd. 2018;731:1295–1302.
- Zadorozhnyy VY, Shahzad A, Pavlov MD, et al. Synthesis of the Ni–Al coatings on different metallic substrates by mechanical alloying and subsequent laser treatment. J Alloy Compd. 2017;707:351–357.
- Rajamure RS, Vora HD, Gupta N, et al. Laser surface alloying of molybdenum on aluminum for enhanced wear resistance. Surf Coat Technol. 2014;258:337–342.
- Lee IS, Kao PW, Chang CP, et al. Formation of Al–Mo intermetallic particle-strengthened aluminum alloys by friction stir processing. Intermetallics. 2013;35:9–14.
- Almeida A, Carvalho F, Carvalho PA, et al. Laser developed Al–Mo surface alloys: Microstructure, mechanical and wear behaviour. Surf Coat Technol. 2006;200(16–17):4782–4790.
- Li C, Wang H, Ding J, et al. Effects of heat treatment on HVOF-sprayed Fe-based amorphous coatings. Surf Eng. 2020;37(5):590–598.
- Pishva P, Salehi M, Golozar MA. Effect of grinding on surface characteristics of HVOF-sprayed WC–10Co–4Cr coatings. Surf Eng. 2019;36(11):1180–1189.
- Gamutan J, Miki T. Surface modification of a Mo-substrate to form an oxidation-resistant MoSi2 layer using a Si-saturated tin bath. Surf Coat Technol. 2022;448:128938.
- Pawlowski L, Fauchais P. Thermal transport properties of thermally sprayed coatings. Int Mater Rev. 1992;37(1):271–289.
- Singh S, Singh H, Buddu RK. Microstructural investigations on bonding mechanisms of cold-sprayed copper with SS316L steel. Surf Eng. 2019;36(10):1067–1080.
- Pan J, Hu S, Niu A, et al. Numerical analysis of particle impacting and bonding processes during high velocity oxygen fuel spraying process. Appl Surf Sci. 2016;366:187–192.
- Eumann M, Sauthoff G, Palm M. Re-evaluation of phase equilibria in the Al–Mo system. Int J Mater Res. 2006;97:1502–1511.
- Kuang S, Zhou F, Liu W, et al. Al2O3/MC particles reinforced MoFeCrTiWNbx high-entropy-alloy coatings prepared by laser cladding. Surf Eng. 2022;38(2):158–165.
- Karthik GM, Kim HS. Heterogeneous aspects of additive manufactured metallic parts: a review. Met Mater Int. 2021;27(1):1–39.
- Han T, Xiao M, Zhang J, et al. Laser cladding composite coating on mild steel using Ni–Cr–Ti–B4C powder. Surf Eng. 2018;36(12):1278–1284.
- Zhang B, Wang H, Chen R, et al. Laser surface alloying with carbon on 15-5PH steel for improved wear resistance. Surf Eng. 2020;37(5):669–677.
- Yener T, Erdoğan A, Gök MS, et al. Nb and B effect on mechanical properties of Ti–Al based intermetallic materials. Vacuum. 2019;169:108867.
- Archard JF. Contact and rubbing of flat surfaces. J Appl Phys. 1953;24(8):981–988.
- Zhang H, Pan Y, Zhang Y, et al. Microstructure, toughness, and tribological properties of laser cladded Mo2FeB2-based composite coating with in situ synthesized WC and La2O3 addition. Surf Coat Technol. 2022;449:128947.
- Ding N, Yu L, Zuo B, et al. Microstructural, mechanical, oxidation resistance and tribological properties of TaMgN films. Surf Eng. 2022;38(1):30–36.