期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

Nb-Mo-V微合金钢中回火硬度峰值时碳化物的研究 被引量:3

STUDY ON PRECIPITATION OF THE CARBIDE AT PEAK HARDNESS DURING TEMPERING IN Nb-Mo-V-BEARING MICRO-ALLOYED STEEL
在线阅读 下载PDF
导出
摘要 Nb-Mo-V微合金钢固溶后在450~650℃温度下回火不同时间,利用透射电镜(TEM)和三维原子探针(3DAP)对不同温度回火硬度峰值样品的显微组织及碳化物进行分析。结果表明:回火温度越高,样品硬度达到峰值所需的回火时间越短;析出强化效果最佳时合金碳化物的等效半径约1.0 nm,数量密度约2.0×10^(24)m^(-3);450℃样品中碳化物是以Nb_4C_3为核心,在渗碳体中原位形核而成,合金元素与碳原子配比接近4:3;500~650℃样品中碳化物的合金元素和碳原子形成团簇、偏聚分布在基体中,并未形成独立晶体结构和稳定元素化学计量配比。 Three dimensional atom probe (3DAP) and transmission electron microscopy (TEM) were applied to characterize the microstructure and carbides of Nb-Mo-V micro-alloyed steel sample at peak hardness by tempering at 450 -650 ℃ after solution treatment. The results showed that the tempering time for the peak hardness needed became shorter with the tempering temperature increased. The size and number density of the carbides were about 1. 1 nm and 2.0 x 1024 m-3 respectively, corresponding to the strongest precipitation strength. Nb4C3 in-situ nucleated inside of the cementite as the core of the carbides in peak hardness samples tempered at 450 ℃, the atomic ratio of alloy elements to carbon of the carbides closed to 4: 3, alloying elements and carbon formed clusters and congregating in the matrix, having not formed independent crystal structure and stoiehiometric ratio of elements in peak hardness samples tempered at 500 -650 ℃.
作者 王泽民 宋辉 王晓姣 刘文庆
机构地区 上海大学微结构重点实验室 上海应用技术学院材料科学与工程学院
出处 《上海金属》 CAS 北大核心 2013年第5期1-4,共4页 Shanghai Metals
基金 国家自然基金重点(50931003)资助项目
关键词 微合金钢 三维原子探针 合金碳化物 硬度峰值 回火 Micro-Alloyed Steel, Three Dimensional Atom Probe, Alloy Carbide, Peak Hardness, Tempering
分类号 TG142.45 [金属学及工艺—金属材料]
作者简介 王泽民,助理实验师、博士,研究方向:金属材料中的第二相强化机制,Email:zeminwong@gmail.com 通讯作者:刘文庆,上海大学微结构研究重点实验室研究员,博导,Email:wqliu@staf.shu.edu.cn
  • 相关文献

参考文献13

  • 1Pereloma E V,Timokhina I B,Russell K F,et al.Characterization of clusters and ultra fine precipitates in Nbcontaining C-Mn-Si steels[J] .Scripta Materialia,2006,54(3):471-476.
  • 2Mishra S K,Das S,Ranganathan S.Precipitation in high strength low alloy steel:a TEM study[J] .Materials Science and Engnieerin A,2002,233:285-292.
  • 3Mulholland M D,Seidman D N.Multiple dispersed phases in high-strength low-carbon steel:An atom-probe tomographic and synchrotron X-ray diffraction study[J] .Scripta Materialia,2009,60:992-995.
  • 4Zhu C,Cerezo A,Smith G D W.Carbide characterization in low-temperature tempered steels[J] .Ultramicroscopy,2009,109:545-552.
  • 5Gtündüz S,Cochrane R C.Influence of cooling rate and tempering on precipitation and hardenss of vanadium microalloyed steel[J] .Material and Design,2005,26:486-492.
  • 6Hong S G,Jun H J,Kang K B,et al.Evolution of precipitates in the Nb-Ti-V microalloyed HSLA steels during reheating[J] .Scripta Materialia,2003,48:1201-1206.
  • 7Isheim D,Kolli R P,Fine M E,et al.An atom-probe tomographic study of the temporal evolution of the nanostructure of Fe-Cu based high-strength low-carbon steels[J] .Scripta Materialia,2006,55 (1):35-40.
  • 8Isheim D,Gagliano M S,Fine M E,et al.Interfacial segregation at Cu-rich precipitates in a high-strength low-carbon steel studied on a sub-nanometer scale[J] .Acta Mater,2006,54(3):841-849.
  • 9王泽民,朱晓勇,刘文庆.Mo对Nb-Mo-V微合金化钢中碳化物析出的影响[J].材料研究学报,2010,24(2):217-222. 被引量:14
  • 10刘庆冬,刘文庆,王泽民,周邦新.Nb-V微合金钢中碳化物析出的三维原子探针表征[J].金属学报,2008,44(7):786-790. 被引量:14

二级参考文献32

  • 1K.Kuo, Carbides in chromium, molybdenum, and tungsten steels, J. Iron steel Inst., 173, 363(1953).
  • 2M.Assefopur-Dezfuly, B.A.Hugaas, Brownrigg. A, Fire resistant high strength low alloy steels, Mater Science and Technology., 6, 1210(1990).
  • 3H.Wada, R.D.Pehlke, Nitrogen solubility and Nitride formation in austenitic Fe-Ti alloys, Metall Trans.,16(4), 815(1985).
  • 4M.G.Akben, B.Bacroix, J.J.Jonas, Effect of vanadium and molybdenum addition on high temperature recovery, recrystallization and precipitation behavior of Niobium- based microalloyed steels, Acta Metall., 31(1), 161(1983).
  • 5M.M.Kenzie, A.J.Craven, C.L.Collins, Nanoanalysis of very fine VN precipitates in steel, Scripta Materialia., 54(1), 1(2006).
  • 6S.G.Hong, K.B.Kang, C.G.Park, Strain-induced precipitation of NbC in Nb and Nb-Ti microalloyed HSLA steels, Scripta Materialia., 46(2), 163(2002).
  • 7D.Isheim, R.P.Kolli, M.E.Fine, D.N.Seidman, An atomprobe tomographic study of the temporal evolution of the nanostructure of Fe Cu based high-strength low-carbon steels, Scripta Materialia., 55(1), 35(2006).
  • 8S.D.Erlach, H.Leitner, M.Bischof, H.Clemens, F.Danoix, D.Lemarchand, I.Siller, Comparison of NiAl precipitation in a medium carbon secondary hardening steel and C-free PH13-8 maraging steel, Mater Sci Eng A., 429(1-2), 96(2006).
  • 9E.V.Pereloma, I.B.Timokhina, K.F.Russell, M.K.Miller, Characterization of clusters and ultrafine precipitates in Nb-containing C-Mn-Si steels, Scripta Materialia., 54(3), 471(2006).
  • 10I.B.Timokhina, P.D.Hodgson, S.P.Ringer, R.K.Zheng, E.V.Pereloma, Precipitate characterisation of an advanced high-strength low-alloy (HSLA) steel using atom probe tomography, Scripta Materialia., 56(7), 601(2007).

共引文献61

同被引文献24

引证文献3

二级引证文献7

上海金属
2013年 第5期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
关于我们 | 版权声明 | 联系我们 | 帮助中心| 意见反馈
主办单位:上海市教育委员会
技术支持:重庆维普资讯有限公司
渝公网安备 50019002500403号
使用帮助 返回顶部