摘要
采用Thermo-Calc热力学计算软件,对820~1 200 ℃时T122高铬耐热钢(%:0.11~0.12C,11.37~11.97Cr,1.90~1.93W,0.38Mo,0.86~0.90Cu,0.05Nb,0.19~0.20V,0.58~0.67N,0.002 3~0.002 8B)在820~1 200 ℃的热力学平衡相及合金元素Cr、Al、Ti对δ铁素体和主要析出相的影响进行了研究.结果表明,T122耐热钢残留有较多的δ铁素体,其主要析出相为M23C6、Laves和MX.在950~1 050 ℃时δ铁素体最少,其含量为15.7%~18.9%.M23C6析出开始温度为940 ℃,Laves相为750 ℃,MX则较稳定为>1 250 ℃.Cr对δ铁素体含量影响很大,但对析出相影响较小.降低Al、Ti有助于降低δ铁素体含量,增加MX含量.
The thermodynamic equilibrium phases in T122 heat-resistant steel (0.11 ~ 0.12C, 11.37 ~11.97Cr, 1.90~1.93W, 0.38Mo, 0.86~0.90Cu, 0.05Nb, 0.19~0.20V, 0.58~0.67N, 0.0023~0.0028B) and the effect of alloying element Cr, Al, Ti on δ ferrite and major precipitated phases at temperature between 820℃ and 1200℃ have been studied by Thermo-Calc software. The results show that there is a large amount of δ ferrite in T122 heat-resistant steel and the main precipitated phases in steel are M23C6, Laves phase and MX. At temperature between 950℃ and 1050℃ the amount of δ phase is lowest, of which the content is 15.7% ~ 18.9%. The initial precipitated temperature for M23C6 is 940℃, for Laves phase is 750℃, but for MX is more than 1250℃ which is a very stable phase. It is found that chromium has a great influence on formation of δ ferrite and has minor influence on that of precipitated phases; to lower Al and Ti content is available to decrease δ ferrite amount and increase MX phase amount.
出处
《特殊钢》
北大核心
2005年第6期16-19,共4页
Special Steel
基金
国家高技术发展计划(863项目)资助项目(AA2003331060)