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Abstract:
研究了氮细化新型高导热性奥氏体锰钢晶粒度的作用机理.结果表明,铸态奥氏体锰钢中氮在固液界面形成吸附层,阻碍铁、锰、碳等原子的扩散,提高了形核过冷度和形核自由能差,提高均质形核率,降低晶体长大速度,使晶粒细化;氮在晶界固溶,与晶界处铁、锰等原子形成较强的共价键,牵制了铁、锰原子的扩散,使晶粒在热处理过程长大受阻,限制了奥氏体锰钢晶粒度长大,细化晶粒.细化效果还与氮浓度有关.新型试验钢种锰含量降至不高于8%,碳含量约1%,氮含量约0.07%,晶粒度达到4级,机械性能达到甚至超过标准高锰钢Mn13.
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Source :
过程工程学报
ISSN: 1009-606X
Year: 2014
Issue: 6
Volume: 14
Page: 1053-1057
Cited Count:
WoS CC Cited Count: 0
SCOPUS Cited Count:
ESI Highly Cited Papers on the List: 0 Unfold All
WanFang Cited Count:
Chinese Cited Count: -1
30 Days PV: 0
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