References
- Du G, Li J, Wang Z B. Control of carbide precipitation during electroslag remelting-continuous rapid solidification of GCr15 steel. Metall Mater Trans B. 2017;48:2873–2890. doi: 10.1007/s11663-017-1089-3
- Luo YW, Guo HJ, Guo J. Effect of cooling rate on the transformation characteristics and precipitation behaviour of carbides in AISI M42 high-speed steel. Ironmaking Steelmaking. 1–7. doi:10.1080/03019233.2018.1461593.
- Magula V, Janovec J. Effect of short time high temperature annealing on kinetics of carbidic reactions in 2.7Cr-0.6Mo-0.3V steel. Ironmaking Steelmaking. 1994;21:223.
- Yu RZ, Liu HB. Influence of heating temperature and Time on solubility and diffusivity of liquation carbide in MC5 roller steel. Special Steel Techonlogy. 2013;19:31.
- Chang LZ, Shi XF, Cong JQ, et al. Effect of Mould Rotation on Distribution of Elements in Steel Ingot in Electroslag Remelting. The Chinese Journal of Process Engineering. 2014;14(2):266–272.
- Chang LZ, Shi XF, Cong JQ, et al. Effects of relative motion between consumable electrodes and mould on solidification structure of electroslag ingots during electroslag remelting process. Ironmaking Steelmaking. 2014;41:611–617. doi: 10.1179/1743281213Y.0000000177
- Wang H, Shi CM, Li J, et al. Evolution of CaO–MgO–Al2O3–CaS–(SiO2) inclusions in H13 die steel during electroslag remelting process. Ironmaking Steelmaking. 2018;45:6–16. doi: 10.1080/03019233.2016.1235078
- Jiang ZH, Wang C, Gong W, et al. Evolution of inclusions and change of as-cast microstructure with Mg addition in high carbon and high chromium die steel. Ironmaking Steelmaking. 2015;42:669–674. doi: 10.1179/1743281215Y.0000000014
- Wen B, Song B, Pan N, et al. Effect of SiMg alloy on inclusions and microstructures of 16Mn steel. Ironmaking Steelmaking. 2011;38:577–583. doi: 10.1179/1743281211Y.0000000010
- Wang H, Li J, Shi CB, et al. Evolution of Al2O3 inclusions by magnesium treatment in H13 hot work die steel. Ironmaking Steelmaking. 2017;44:128–133. doi: 10.1080/03019233.2016.1165498
- Wang C, Gong W, Jiang ZH, et al. Effect of magnesium on the carbide and thermoplasticity of cold working die steel. Chinese Journal of Engineering. 2016;38:501.
- Liu J, Lu QL, Li Z, et al. Study on the mechanism of trace magnesium improving carbide in bearing steel. J Iron Steel Res. 2011;23:39.
- Li YY, W. LL, Ning B. Effect of magnesium on mechanical properties of H13 die steel after anneal. Southern Met. 2013;2:48.
- Li J, Shi CB, Wang LL, et al. Effect of trace magnesium on carbide improvement in H13 steel. Can Metall Q. 2016;55:321–327. doi: 10.1179/1879139515Y.0000000030
- Ge HL, Youdelis WV. Effect of interfacial segregation of magnesium on high carbon (18%Cr) cast steel. Mater Sci Technol. 1989;5:1207–1211. doi: 10.1179/mst.1989.5.12.1207
- Song PP, Li BZ, Zhu JZ, et al. Effects of RE compound modificator on mechanical properties and microstructure of high carbon high speed steel. J Iron Steel Res. 2001;13:31.
- Kou XP, Xia PJ, Yang F, et al. Study of RE-Mg on modification effects of high chromium cast iron for roller. Hot Working Technol. 2015;44:90.
- Duan JT, Jiang ZQ, Fu HG. Effect of RE-Mg complex modifier on structure and performance of high speed steel roll. J Rare Earths. 2007;25:259–263. doi: 10.1016/S1002-0721(07)60484-0
- Wang SQ, Jiang QC, Zhao YG, et al. Cast Cr12MoV die steel with granular carbide modified by Re-Mg compound. J Mater Sci Lett. 1996;15:256–257. doi: 10.1007/BF00274467
- Zheng W, Wu ZH, Li GQ, et al. Effects of Ti-Mg complex deoxidation and sulfur content on the characteristics of inclusions and the precipitation behavior of MnS. Chin J Eng. 2015;37:292.
- Liu YH, Zhao DZ. Discussion about Control Techniques of Bearing Steel Liquid Limitation. Met. World. 2012;2:45.
- Zuo Y, Mi ZL, Li ZC. Influence of heating process on dissolve behavior of liquation carbide in casting bearing steel. Trans. Mater. Heat Treatment. 2016;37:146.
- Kong XH, Liu JZ, Liu ZL, et al. Effect of high temperature deformation on liquation carbide of GCr15 bearing steel. Trans Mater Heat Treatment. 2014;35:173.
- Zhong SS, Wang CS. Bearing steel. Beijing: Metallurgical industry press; 2000; p. 234.
- Hu GX, Cai X, Rong YH. Material science foundation. Shanghai: Shanghai Jiao Tong University press; 2010.
- Han LG, Lu YL. Energy spectrum analysis of grain boundary segregation of trace magnesium in nickel base superalloy. Phys Test. 1991;5:20.
- Chen GL, Ge HL. Computer simulation of grain boundary segregation behavior and mechanisms of strengthening of Mg in Ni-based superalloys. J Univ Sci Technol Beijing. 1995;2:84.
- Mclean D. Grain boundaries in metals. London: Oxford Universeristy Press; 1957.
- Yang QX, Gao YW, Liao B, et al. Discussion of Inclusions as Heterogeneous Nuclei of Primary Austenite of Medium-High Carbon Steel during Hardfacing. J Chin Rare Earths Soc. 2000;18:138.