摘要
试验用UNS N06625合金(/%:0.027C,0.005S,0.005P,0.27Si,0.07Mn,21.68Cr,62.93Ni,9.00Mo,3.98Nb,0.20Ti,1.22Fe,0.143A1)由3 t中频感应炉熔炼,3 t电渣炉重熔后锻造成材。采用Gleeble1500D热模拟实验机对UNS N06625合金进行了950~1180℃变形速率5 s^(-1)的拉伸以及变形速率1,5,10 s^(-1)真应变0.9的压缩实验,得到了该合金的变形抗力、断面收缩率和真应力应变曲线。通过分析变形抗力和断面收缩率,确定了UNS N06625合金的热加工温度区间为975~1180℃;研究了变形温度和变形速率对该合金动态再结晶的影响;通过拟合计算应力应变数据,建立了UNS N06625合金的峰值应力模型和动态再结晶临界变形量模型。5 t电渣锭的生产实践表明,该合金合适的开坯加热温度为1120℃。
The tested alloy UNS N06625 (/% : 0. 027C, 0. 005S, 0.005P, 0. 27Si, 0. 07Mn, 21.68Cr, 62. 93Ni, 9. 00Mo, 3.98Nb, 0. 20Ti, 1.22Fe, 0. 143Al) is melted by a 3 t medium frequency induction furnace, remehed by a 3 t ESR furnace and forged to products. The tensile test at 950 - 1 180 ℃ with deformation rate 5 s^-1 and the compression test with deformation rate 1, 5 and 10 s^-1 and true strain 0. 9 of alloy UNS N06625 have been carried out by Gleeble 1500D thermal simulator to get the deformation resistance, reduction of area and true stress-strain curves. With analysis on deform- ation resistance and reduction of area of the alloy, it is defined that the hot-working temperature zone of alloy UNS N06625 is 975 - 1 180 ℃ ; the effect of deformation temperature and rate on dynamic recrystallization of the ahoy is studied and the peak stress model and the critical deformation model tbr dynamic recrystallization of alloy UNS N06625 are established by combined calculation of stress and strain data. The production practice of 5 t ESR ingot shows that the suitable breakdown temperature of the alloy is l 120 ℃. Material Index Alloy UNS N06625, Peak Stress, Critical Deformation of Dynamic Recrystallization, Hot Forming Process, Heating Temperature
出处
《特殊钢》
北大核心
2017年第2期1-5,共5页
Special Steel
关键词
UNS
N06625合金
峰值应力
动态再结晶临界变形量
热成形工艺
加热温度
Index Alloy UNS N06625, Peak Stress, Critical Deformation of Dynamic Recrystallization, Hot Forming Process, Heating Temperature