OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

金属学报 2012

富Cu团簇的析出对RPV模拟钢韧-脆转变温度的影响

DOI: 10.3724/SP.J.1037.2011.00668, PP. 753-758

徐刚,蔡琳玲,冯柳,周邦新,王均安,张海生

Keywords: 核压力容器模拟钢,韧-脆转变温度,富Cu团簇,原子探针层析法

Full-Text Cite this paper Add to My Lib

Abstract:

将Cu含量高于实际核反应堆压力容器(RPV)钢的模拟钢在880℃水淬后,在660℃进行调质处理,然后在370℃时效不同时间,采用TEM,原子探针层析法(APT)和冲击实验对其进行研究.结果表明,时效1150h后,富Cu团簇的析出仍处于形核阶段,对韧-脆转变温度(DBTT)没有明显的影响;时效3000h后,试样中析出了平均尺寸为1.5nm的富Cu团簇,主要分布在位错线上,数量密度达到4.2×1022m-3,DBTT由调质处理后的-100℃升高至-60℃;时效13200h后,富Cu团簇略有长大,平均尺寸达到2.4nm,团簇的数量密度与时效3000h的试样处于相同数量级,DBTT升高至-45℃.采用热时效方法使富Cu团簇析出后,DBTT只提高了55℃,没有中子辐照引起的那样显著,这不仅是因为富Cu团簇的数量密度低,基体中没有中子辐照产生的晶体缺陷也是重要的原因.

References

[1]	Toyama T, Nagai Y, Tang Z, Hasegawa M, Almazouzi A, van Walle E,Gerard R. Acta Mater, 2007; 55: 6852
[2]	Auger P, Pareige P, Welzel S, van Duysen J C. J Nucl Mater,2000; 280: 331
[3]	Miller M K, Russell K F, Sokolov M A, Nanstad R K. J Nucl Mater,2007; 361: 248
[4]	Miller M K, Russell K F, Sokolov M A, Nanstad R K. J Nucl Mater,2003; 320: 177
[5]	Miller M K, Nanstad P K, Sokolov M A, Russell K F. J Nucl Mater,2006; 351: 216
[6]	Phythian W J, English C A. J Nucl Mater, 1993; 205: 162
[7]	Carter R G, Soneda N, Dohi K, Hyde J M, English C A, Server W L. J Nucl Mater, 2001; 298: 211
[8]	Miller M K, Chernobaeva A A, Shtrombakh Y I, Russell K F, Nanstad R K,Erak D Y, Zabusov O O. J Nucl Mater, 2009; 385: 615
[9]	Miller M K, Russell K F. J Nucl Mater, 2007; 371: 145
[10]	Hornbogen E, Glenn, R C. Trans Metall Soc AIME, 1960; 218: 1064
[11]	Zhang R Q, Hong X F, Peng Q. Nucl Power Eng, 2010; 31(1): 4
[12]	(张瑞谦, 洪晓峰, 彭倩. 核动力工程. 2010; 31(1): 4)
[13]	Goodman S R, Brenners S S, Low J R. Metall Trans,1973; 4: 2363
[14]	Pizzini S, Roberts K J, Phythian W J, English C A, Greaves G N. Philos Mag Lett, 1990; 61: 223
[15]	Othen P J, Jenkins M L, Smith G D W, Phythian W J. Philos Mag Lett,1991; 64: 383
[16]	Speich G R, Oriani R A. Trans Metall Soc AIME, 1965; 233: 623
[17]	Othen P J, Jenkins M L, Smith G D W. Philos Mag, 1994; A70: 1
[18]	Styman P D, Hyde J M, Wilford K, Morley A, Smith G D W.Prog Nucl Energ, 2011, doi:10.1016/j.pnucene.2011.10.010
[19]	Chu D F, Xu G, Wang W, Peng J C, Wang J A, Zhou B X. Acta Metall Sin, 2011; 47: 269
[20]	(楚大锋, 徐刚, 王伟, 彭剑超, 王均安, 周邦新. 金属学报,2011; 47: 269)
[21]	Xu G, Cai L L, Feng L, Zhou B X, Wang W, Peng J C. Acta Metall Sin,2011; 47: 906
[22]	(徐刚, 蔡琳玲, 冯柳, 周邦新, 王伟, 彭剑超. 金属学报,2011; 47: 906)
[23]	Miller M K. Atom Probe Tomography: Analysis at the Atomic Level.New York: Kliwer Academic/Plenum Publishers, 2000: 25
[24]	Yong Q L. Secondary Phase in Steel. Beijing: Metallurgical Industry Press, 2006: 127
[25]	(雍岐龙. 钢铁材料中的第二相. 北京: 冶金工业出版社, 2006: 127)
[26]	Xu G, Cai L L, Feng L, Zhou B X, Liu W Q, Wang J A. Acta Metall Sin, 2012; 48: 407
[27]	(徐刚, 蔡琳玲, 冯柳, 周邦新, 刘文庆, 王均安. 金属学报,2012; 48: 407)
[28]	Buswell J T, English C A, Herherington M G, Phythian W J, Smith G D W, Worral G M. In: Steele L E ed., Proc 14th Int Symp Effects of Radiation on Materials, Vol. 2, Andover, Massachusseetts:The American Society for Testing and Materials, 1990: 127
[29]	Brown L M, Ham R K. In: Kelly A, Nicholson R B, eds., Strengthening Methods in Crystals. London:Applied Science Publishers; 1965: 9
[30]	Friedel J. Disloctions. London: Pergamon Press; 1964: 1
[31]	Russell K C, Brown L M. Acta Metall, 1972; 20: 969
[32]	Harry T, Bacon D J. Acta Mater, 2002; 50: 195
[33]	Harry T, Bacon D J. Acta Mater, 2002; 50: 209

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133