金属学报  1988, Vol. 24 Issue (3): 180-186

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电子辐照Fe-Cr-Ni奥氏体合金的空洞体胀与诱起晶界偏析的研究

胡本芙;高桥平七郎;竹山太郎

北京钢铁学院金相教研室;日本北海道大学;日本北海道大学

VOID SWELLING AND GRAIN BOUNDARY SEGREGATION INDUCED BY ELECTRON IRRADIATION IN Fe-Cr-Ni AUSTENITE ALLOY

HU Benfu;TAKAHASHI Heishichiro;TAKEYAMA Taro Beijing University of Iron and Steel Technology; Hokkaido University; JapanBeijing University of Iron and Steel Technology;Xueyuan Rd.; Beijing

胡本芙;高桥平七郎;竹山太郎. 电子辐照Fe-Cr-Ni奥氏体合金的空洞体胀与诱起晶界偏析的研究[J]. 金属学报, 1988, 24(3): 180-186.
, , . VOID SWELLING AND GRAIN BOUNDARY SEGREGATION INDUCED BY ELECTRON IRRADIATION IN Fe-Cr-Ni AUSTENITE ALLOY[J]. Acta Metall Sin, 1988, 24(3): 180-186.

摘要 参考文献 相关文章 Metrics 全文: PDF(1335 KB)   摘要: 本文用超高压电镜(HVEM)作为电子束源,研究了Fe-15％Cr-30％Ni合金电子辐照后,合金空洞体胀和诱起晶界偏析.实验结果证明:723K,最大剂量15dpa条件下,体胀量为0.62％.在晶界发生Cr贫化、Ni富化.随着辐照温度提高,晶界偏析程度增加,723K时Cr,Ni在晶界出现最大偏析峰,相应空洞体胀量也最大.结果表明,空洞形成和晶界偏析密切相关,本文提出了辐照诱起晶界偏析模型. 关键词 ： 电子辐照,  Fe-Cr-Ni合金,  空洞体胀,  晶界偏析     Abstract：The void swelling and grain boundary segregation induced by elec-tron irradiation in Fe-15%Cr-30%Ni alloy has been studied, using the high-voltageelectron microscope (HVEM) as the source of electron beam. The results show thatat 723 K and maximum dose of 15 dpa (displacement per atom), the bulk swellingis 0.62%. Ni enriched at the grain boundaries while Cr become depleted. Withincreasing irradiation temperature, the segregation increases. The maximum segrega-tion peak of Ni appears at 723K, accompanied by maximum bulk swelling. A modelof irradiation-induced grain boundary segregation has been proposed to correlatethe segregation with void formation. Key words： electron irradiation    Fe-Cr-Ni alloy    void swelling    grain boundary segregation 收稿日期: 1988-03-18      服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 胡本芙 高桥平七郎 竹山太郎 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y1988/V24/I3/180 1 Norris I R. Radiat Eff 1972; 15: 1 2 Johnston W G. Rosolowski J H. Effects of Radiation on Substructure and Mechanical Properties of Metals and Alloys. ASTM-STP-529, ASTM, 1973: 213 3 Vaidya W V. J Nucl Mater, 1983; 113: 219 4 Lec E H, Roweliffe A F, Kenik E A. J Nucl Mater, 1979; 83: 79 5 Takahashi H, Ohnuki S, Takeyama T. J Nucl Mater, 1981; 103--104: 1415 6 Ohnuki S, Takahashi H, Takeyama T. J Nucl Mater, 1981; 103--104: 1121 7 Johnston W G, Rosolowskl J H, Turkalo A M, Lauritzen T. J Nucl Mater, 1974; 54: 24 8 石野(开木),照射损伤,东京大学出版社,1979:151 9 Okamoto P K, Wiedersich H. J Nucl Mater, 1974; 53: 242 10 Anthony T K. Radiation-Induced Voids in Metals. 1972: 630 11 Johnson R A, Lam N Q. Phys Rev B, 1976; 13: 4364u [1] 常松涛, 张芳, 沙玉辉, 左良. 偏析干预下体心立方金属再结晶织构竞争[J]. 金属学报, 2023, 59(8): 1065-1074. [2] 宋仁国;张宝金;曾梅光. 7175铝合金的应力腐蚀及晶界Mg偏析的作用[J]. 金属学报, 1997, 33(6): 595-601. [3] 王宝义;张水合;王天民. Fe-Cr-Ni合金淬火缺陷回复行为的正电子湮没研究[J]. 金属学报, 1997, 33(3): 271-276. [4] 胡本芙;吴承健. 新型抗辐照氧化物弥散强化(ODS)型铁素体不锈钢辐照损伤特性研究[J]. 金属学报, 1995, 31(11): 525-530. [5] 胡本芙;高桥平七郎. Fe—Cr—Mn(Ni)合金抗辐照损伤特性研究[J]. 金属学报, 1993, 29(10): 10-16. [6] 万发荣;肖纪美;袁逸. 利用电子束辐照方法测定空位迁移能[J]. 金属学报, 1990, 26(2): 74-78. Viewed Full text Abstract Cited   Shared      Discussed