References
- Maraveas C, Wang YC, Swailes T, et al. An experimental investigation of mechanical properties of structural cast iron at elevated temperatures and after cooling down. Fire Saf J. 2015;71:340–352.
- Isabel H, Anthony T, Eric H. Damage analysis of a ferritic SiMo ductile cast iron submitted to tension and compression loadings in temperature. Metals. 2015;5:2351–2369.
- Bellet M, Cerri O, Bobadilla M, et al. Modeling hot tearing during solidification of steels: assessment and improvement of macroscopic criteria through the analysis of two experimental tests. Met Mat Trans A. 2009;40A:2705–2717.
- Young MW, Tae-Jung Y, Dong JSKyu HO. A new criterion for internal crack formation in continuously cast steels, Met Mat Trans B. 2012;31B:779–794
- Takao K, Michel B, Charles AG, et al. Study of hot tearing during steel solidification through ingot punching test and its numerical simulation. Met Mat Trans A. 2016;47(8):4053–4067.
- Alizadeh M. Study on hot tearing tendency during continuous casting of steel by overall hot tearing susceptibility (OHTS). Int. J. Of Cast Met. Res. 2015;28(1):20–27.
- Sweet L, Taylor JA, Easton MA, et al. Chemical additions to reduce hot tearing in the cast house. In: Light metals. Cham: Springer; 2012.
- Anil KB, Benny DKE. Trans Nonferrous Met Soc China. 2016;26:1783−1790.
- Dubey SN. Ph.D thesis. The Ohio State University; 2015.
- Rogbreg B. Scand J Metallugy. 1983;47:51–66.
- Kim SK, Lee YD, Hansson K, et al. Influence of cooling rate on the hot cracking formation of nickel rich alloys. ISIJ Inter. 2002;42–5:512–519.