摘要
研究了二次硬化型超高强度钢23NiCo的显微组织及其强韧化机制。结果表明,430℃回火,马氏体分解形成大量的渗碳体,粗大渗碳体粒子分布在板条边界,合金的韧性最差。440~455℃回火,位错上有细小碳化物的析出共格区,合金的强度最高。482℃回火,片状渗碳体含量减少以及在板条边界形成薄膜状的逆转奥氏体,合金的韧性迅速增加。高温回火,M2C粗化失去与基体的共格关系。
The microstructure and strengthening mechanism of ultrahigh strength 23NiCo steel were studied. Upon tempering at 430℃, the martensite was decomposed to form a lot of cementite platelets concomitant with a significant drop in toughness. Tempering at 440~455℃ resulted in peak strength due to the precipitation of coherent zones of fine carbides. The peak in toughness was attained in the absence of cementite and the formation of reverted and stable austenite. Tempering at higher temperatures resulted in loss of both strength and toughness. The drop of the strength tempering at high temperature is due to precipitations coarsening and loss of the coherent with the matrix.
出处
《航空学报》
EI
CAS
CSCD
北大核心
1997年第1期44-49,共6页
Acta Aeronautica et Astronautica Sinica
