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Materials Science and Technology Volume 37, 2021 - Issue 12
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Research Article

Simulation and experiment investigaton of electromagnetic and thermal field during induction cladding

Jing Yua Marine Engineering College, Dalian Maritime University, Dalian, People’s Republic of ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-8228-7292View further author information
ORCID Icon,
Shuai Zhanga Marine Engineering College, Dalian Maritime University, Dalian, People’s Republic of ChinaView further author information
,
Yanchuan Liub Department of Strategy Implementation, Dalian Special Equipment Inspecting Institute, Dalian, People’s Republic of ChinaView further author information
&
Jinlong Wanga Marine Engineering College, Dalian Maritime University, Dalian, People’s Republic of ChinaView further author information
Pages 1060-1072 | Received 18 May 2021, Accepted 30 Aug 2021, Published online: 23 Sep 2021

References

  • Chang JH, Chou JM, Hsieh RI, et al. Corrosion behaviour of an alloy formed by inductive melting of a cobalt-based alloy and AISI 4140 steel. Corros Sci. 2009;51:987–996.
  • Kilicay K, Buytoz S, Ulutan M. Microstructural and tribological properties of induction cladded NiCrBSi/WC composite coatings. Surf Coat Technol. 2020;397:125974.
  • Huang B, Wen X, Zhang S, et al. Study on microstructure and properties of high frequency induction cladding TiC/Ni coating after solution treatment. Mater Res Express. 2019;6:126405.
  • Huang B, Gao Y, Chen P, et al. Microstructure and properties of Ni + B4C/Ti coatings by induction cladding. Surf Innovations. 2019;7(1):59–67.
  • Xuliang C, Xunpeng Q, Zhenghua Z, et al. Microstructural evolution and wear properties of the continual local induction cladding NiCrBSi coatings. J Mater Process Technol. 2018;262:257–268.
  • Yu J, Liu Y, Song B, et al. Microstructure and properties of Fe-based alloy coating on gray cast iron fabricated using induction cladding. Coat. 2020;10(9):801.
  • Jing Y, Song B. Effects of heating time on the microstructure and properties of an induction cladding coating[J]. Results Phys. 2018;11:212–218.
  • Yu J, So B, Liu Y C. Microstructure and wear behaviour of Ni-based alloy coated onto grey cast iron using a multi-step induction cladding process. Results Phys. 2018;10:339–345.
  • Tong D, Gu J, Yang F. Numerical simulation on induction heat treatment process of a shaft part: involving induction hardening and tempering. J Mater Process Tech. 2019;262:277–289.
  • Khalifa M, Barka N, Brousseau J, et al. Optimization of the edge effect of 4340 steel specimen heated by induction process with flux concentrators using finite element axis-symmetric simulation and experimental validation. Int J Adv Manuf Technol. 2019;104:4549–4557.
  • Gao K, Qin X, Wang Z, et al. Numerical and experimental analysis of 3D spot induction hardening of AISI 1045 steel. J Mater Process Technol. 2014;214:2425–2433.
  • Muhl F, Damon J, Dietrich S, et al. Simulation of induction hardening: simulative sensitivity analysis with respect to material parameters and the surface layer state. Comput Mater Sci. 2020;184:109916.
  • Fomin A, Koshuro V, Shchelkunov A, et al. Simulation and experimental study of induction heat treatment of titanium disks. Int J Heat Mass Transfer. 2021;165:120668.
  • Chang JH, Chang CP, Chou JM, et al. Microstructure and bonding behavior on the interface of an induction-melted Ni-based alloy coating and AISI 4140 steel substrate. Surf Coat Technol. 2010;204:3137–3181.
  • Yu HL, Zhang W, Wang HM, et al. In-situ synthesis of TiC/Ti composite coating by high frequency induction cladding. Alloys Compd. 2017. doi:https://doi.org/10.1016/j.jallcom.2017.01.084.
  • Park H-S, Dang X-P. Optimization of the in-line induction heating process for hot forging in terms of saving operating energy. Int J Prec Eng Manuf . 2012;13(7):1085–1093.
  • Liu YC, Li CK, Xie JH. Simulation on the high frequency induction cladding and experimental validation. J Inf Comput Sci. 2015;12(2):641–656.
  • Sun R, Shi Y, Pei Z, et al. Heat transfer and temperature distribution during high-frequency induction cladding of 45 steel plate. Appl Therm Eng. 2018;139:1–10.
  • Wang W, Wang S, Peng C, et al. Experimental analysis and numerical simulation of melting process of vertical tin cladding. J Eng Storage. 2020;29:101322.
  • Tang L, He P, Jiajie Kang LW, et al. Significantly enhanced mechanical and tribological properties of Co-based alloy coatings by annealing treatment. Tribol Int. 2020;146:106265.
  • Zhao J, Gao Q, Wang H, et al. Microstructure and mechanical properties of Co-based alloy coatings fabricated by laser cladding and plasma arc spray welding. J Alloys Compd. 2019;785:846–854.
  • Zeng C, Tian W, Liao WH, et al. Microstructure and porosity evaluation in laser-cladding deposited Ni-based coatings. Surf Coat Technol. 2016;294:122–130.
  • Liu S-y, Qin X-p, Zhang J-p, et al. Temperature field evolution and heat transfer during continual local induction cladding. J Cent South Univ. 2020;27:1572–1586.
  • Akbari M, Saedodin S, Toghraie D, et al. Experimental and numerical investigation of temperature distribution and melt pool geometry during pulsed laser welding of Ti6Al4V alloy. Optic & Laser Technol. 2014;59:52–59.
  • Wang D, Lu H. Numerical analysis of internal flow of molten pool in pulsed gas tungsten arc welding using a fully coupled model with free surface. Int J Heat Mass Transf. 2021;165:120572.
  • Zeng-zhi ZHANG, Gui-quan HAN, Yao-wen FU, et al. Study on GNi-WC25 coating by high frequency induction cladding. J China Univ Min Technol. 2002;12:158–162.
  • Ryan EM, Sabin TJ, Watts JF, et al. The influence of build parameters and wire batch on porosity of wire and arc additive manufactured aluminium alloy 2319. J Mater Process Tech. 2018;262:577–584.
  • Reddy L, Preston SP, Shipway PH, et al. Process parameter optimisation of laser clad iron based alloy: predictive models of deposition efficiency, porosity and dilution. Surf Coat Tech. 2018;349:198–207.
  • Li Y, Dong S, He P, et al. Microstructure characteristics and mechanical properties of new-type FeNiCr laser cladding alloy coating on nodular cast iron. J Mater Process Tech. 2019;269:163–171.

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