关键词: 高氮奥氏体不锈钢, 热变形, 显微硬度, 再结晶

Abstract: The test steel Mn18Cr18N (0.03C, 19.25Cr, 17.96Mn, 0.59N) is melted by an 100 kg pressured vacuum induction furnace, forged breakdown and rolled to 12mm plate. With using Gleeble 3800 thermal simulation machine the effect of temperature (750-1150 ℃) and deformation (15%-60%) on microhardness and structure of high nitrogen steel Mnl8Crl8N is studied to get a recrystallization diagram of the high nitrogen steel. Test results show that in non-crystallization region with increasing temperature at definite strain, the microhardness of high nitrogen steel Mn18Cr18N decreases slowly, but decreases quickly in part-recrystallization region, finally again decreases slowly in complete recrystallization region ； in complete recrystallization region the main strengthening mechanism is grain refining strengthening and the microhardness value and average grain size are in accordance with Hall-Petch experienced formula ； in non-recrystallization region the strain strengthening is major strengthening mechanism ； and the effect of strain strengthening in non-crystallization region is higher than that in recrystallization region.