38 工程科学学报.第42卷,增刊1 deformation behaviour of 0Cr16Ni5Mo martensitic stainless steel of nitrogen dissolution into molten iron.Metall Trans B,1995, Chin J Eng,2017,39(10:1525 26B:991 (张宝丽,陈刚,孙永庆,等.氮含量对0Cr16Ni5Mo马氏体不锈钢 [16]Ono H,Fukagawa H,Morita K,et al.Effects of O,Se,and Te on 高温热变形行为影响.工程科学学报,2017,39(10):1525) the rate of nitrogen dissolution in molten iron.Metall Trans B, [6] Zhang J,Liu J H,Yan B J,et al.Nonmetallic inclusion removal of 1996,27B:848 Si-Mn deoxidized steel by nitrogen absorption and release method. [17]Ono H,luchi K,Morita K,et al.Effects of oxygen and nitrogen on Chin J Eng,2018,40(8):937 the rate of nitrogen dissolution in iron-chromium and iron- (张杰,刘建华,闫柏军,等.增氩析氨法去除硅锰脱氧钢中夹杂 vanadium alloys.IS//Int,2007,6:1245 物的研究.工程科学学报,2018,40(8):937) [18]Han S M,Park J H,Jung S M,et al.Kinetic study on surface [7]Chen W,Liu Y L,Tian Y J,et al.Microstructure and properties of dissolution of nitrogen on liquid steel by isotope exchange high nitrogen steel.Ordn Mater Sci Eng,2010,33(6):65 technique.ISI/Int,2009,49:487 (陈巍,刘燕林,田雨江,等.高氨钢材料组织及性能研究.兵器 [19]Morita K,Hirosumi T,Sano N.Effects of aluminium,silicon,and 材料科学与工程,2010,33(6):65) boron on the dissolution rate of nitrogen into molten iron.Metall [8]Jiang Z H,Zhu HC,Li H B,et al.Latest Progress in development Trans B,2000,31B:889 and application of high nitrogen stainless steels /Proceedings of [20]Harashima K,Mizoguchi S,Kajioka H,et al.Kinetics of nitrogen the 10th CSM Steel Congress the 6th Baosteel Biennial desorption from liquid iron with low nitrogen content under Academic Conference II.Shanghai,2015:1 reduced pressures.Tetsu to Hagane,1987,73:1559 (姜周华,朱红春,李花兵,等.高氨不锈钢开发和应用的最新进 [21]Eom C H,Song M H,Min D J.Interfacial kinetics of nitrogen 展第十届中国钢铁年会暨第六届宝钢学术年会论文集Ⅱ.上 dissolution in molten Fe-Mn-C alloys using N-"N isotope 海,2015:1) exchange reaction./S//Int,2015,55:2694 [91 Zhan D P,Qiu G X,Niu B,et al.Thermodynamics and kinetics [22]Lee J,Morita K.Interfacial kinetics of nitrogen with molten iron research of nitrogen dissolution in steel.Steelmaking,2015,31(5) containing sulfur.IS///nt,2003,43:14 7 [23]Zhang YZ,Hu X J,Ping D P.et al.Study on solving action of (战东平,邱国兴,牛奔,等.氮在钢液中溶解的热力学及动力学 nitrogen in melting Fe-C alloy.Hebei Metall,2017,253(1):15 研究.炼钢,2015,31(5):7) (张亚召,胡晓军,平东平,等.Fε-C合金熔体中氮的溶解行为研 [10]Pehlke R D,Elliott J F.Solubility of nitrogen in liquid iron alloys. 究.河北治金,2017,253(1):15) Trans Met Soc AIME,1960,218:1088 [24]Ping D P,Hu X J,Zhang Y Z,et al.N-I5N isotope exchange [11]Gomersall DW.Solubility of nitrogen in liquid iron alloys.Trans technique and its application in metallurgical kinetic study. TMS-AME,1969.242:1309 Anhui Polytechnic Univ,2018,33(2):34 [12]Byre M,Belton G R.Studies of the interfacial kinetics of the (平东平,胡晓军,张亚召,等.NN同位素交换技术及其在治 reaction of nitrogen with liquid iron by the NN isotope 金动力学研究中的应用.安徽工程大学学报,2018,33(2):34) exchange reaction.Metall Trans B,1983,14B:441 [25]Kobayashi A,Tsukihashi F,Sano N.Kinetic Studies on the [13]Glaws P C,Fruehan R J.The kinetics of the nitrogen reaction with dissolution of nitrogen into molten iron by NN isotope liquid iron-sulfur alloys.Metall Trans B,1985,16B:551 exchange reaction.ISI/Int.,1993,33:1131 [14]Glaws P C,Fruehan R J.The kinetics of the nitrogen reaction with [26]Zhang J Y.Metallurgical Physical Chemistry,Beijing:Metal- liquid iron-chromium alloys.Metall Trans B,1986,17:317 lurgical Industry Press,2006 [15]Ono H,Morita K,Sano N.Effects of Ti,Zr,V,and Cr on the rate (张家芸.治金物理化学.北京:冶金工业出版社,2006)deformation behaviour of 0Cr16Ni5Mo martensitic stainless steel. Chin J Eng, 2017, 39(10): 1525 (张宝丽, 陈刚, 孙永庆, 等. 氮含量对0Cr16Ni5Mo马氏体不锈钢 高温热变形行为影响. 工程科学学报, 2017, 39(10):1525) Zhang J, Liu J H, Yan B J, et al. Nonmetallic inclusion removal of Si-Mn deoxidized steel by nitrogen absorption and release method. Chin J Eng, 2018, 40(8): 937 (张杰, 刘建华, 闫柏军, 等. 增氮析氮法去除硅锰脱氧钢中夹杂 物的研究. 工程科学学报, 2018, 40(8):937) [6] Chen W, Liu Y L, Tian Y J, et al. Microstructure and properties of high nitrogen steel. Ordn Mater Sci Eng, 2010, 33(6): 65 (陈巍, 刘燕林, 田雨江, 等. 高氮钢材料组织及性能研究. 兵器 材料科学与工程, 2010, 33(6):65) [7] Jiang Z H, Zhu H C, Li H B, et al. Latest Progress in development and application of high nitrogen stainless steels // Proceedings of the 10th CSM Steel Congress & the 6th Baosteel Biennial Academic Conference Ⅱ. Shanghai, 2015: 1 (姜周华, 朱红春, 李花兵, 等. 高氮不锈钢开发和应用的最新进 展 //第十届中国钢铁年会暨第六届宝钢学术年会论文集Ⅱ. 上 海, 2015: 1) [8] Zhan D P, Qiu G X, Niu B, et al. Thermodynamics and kinetics research of nitrogen dissolution in steel. Steelmaking, 2015, 31(5): 7 (战东平, 邱国兴, 牛奔, 等. 氮在钢液中溶解的热力学及动力学 研究. 炼钢, 2015, 31(5):7) [9] Pehlke R D, Elliott J F. Solubility of nitrogen in liquid iron alloys. Trans Met Soc AIME, 1960, 218: 1088 [10] Gomersall D W. Solubility of nitrogen in liquid iron alloys. Trans TMS-AIME, 1969, 242: 1309 [11] Byrne M, Belton G R. Studies of the interfacial kinetics of the reaction of nitrogen with liquid iron by the 15N-14N isotope exchange reaction. Metall Trans B, 1983, 14B: 441 [12] Glaws P C, Fruehan R J. The kinetics of the nitrogen reaction with liquid iron-sulfur alloys. Metall Trans B, 1985, 16B: 551 [13] Glaws P C, Fruehan R J. The kinetics of the nitrogen reaction with liquid iron-chromium alloys. Metall Trans B, 1986, 17: 317 [14] [15] Ono H, Morita K, Sano N. Effects of Ti, Zr, V, and Cr on the rate of nitrogen dissolution into molten iron. Metall Trans B, 1995, 26B: 991 Ono H, Fukagawa H, Morita K, et al. Effects of O, Se, and Te on the rate of nitrogen dissolution in molten iron. Metall Trans B, 1996, 27B: 848 [16] Ono H, Iuchi K, Morita K, et al. Effects of oxygen and nitrogen on the rate of nitrogen dissolution in iron-chromium and ironvanadium alloys. ISIJ Int, 2007, 36: 1245 [17] Han S M, Park J H, Jung S M, et al. Kinetic study on surface dissolution of nitrogen on liquid steel by isotope exchange technique. ISIJ Int, 2009, 49: 487 [18] Morita K, Hirosumi T, Sano N. Effects of aluminium, silicon, and boron on the dissolution rate of nitrogen into molten iron. Metall Trans B, 2000, 31B: 889 [19] Harashima K, Mizoguchi S, Kajioka H, et al. Kinetics of nitrogen desorption from liquid iron with low nitrogen content under reduced pressures. Tetsu to Hagane, 1987, 73: 1559 [20] Eom C H, Song M H, Min D J. Interfacial kinetics of nitrogen dissolution in molten Fe−Mn−C alloys using 15N-14N isotope exchange reaction. ISIJ Int, 2015, 55: 2694 [21] Lee J, Morita K. Interfacial kinetics of nitrogen with molten iron containing sulfur. ISIJ Int, 2003, 43: 14 [22] Zhang Y Z, Hu X J, Ping D P, et al. Study on solving action of nitrogen in melting Fe−C alloy. Hebei Metall, 2017, 253(1): 15 (张亚召, 胡晓军, 平东平, 等. Fe−C合金熔体中氮的溶解行为研 究. 河北冶金, 2017, 253(1):15) [23] Ping D P, Hu X J, Zhang Y Z, et al. 14N-15N isotope exchange technique and its application in metallurgical kinetic study. J Anhui Polytechnic Univ, 2018, 33(2): 34 (平东平, 胡晓军, 张亚召, 等. 14N-15N同位素交换技术及其在冶 金动力学研究中的应用. 安徽工程大学学报, 2018, 33(2):34) [24] Kobayashi A, Tsukihashi F, Sano N. Kinetic Studies on the dissolution of nitrogen into molten iron by 14N-15N isotope exchange reaction. ISIJ Int., 1993, 33: 1131 [25] Zhang J Y. Metallurgical Physical Chemistry, Beijing: Metallurgical Industry Press, 2006 (张家芸. 冶金物理化学. 北京: 冶金工业出版社, 2006) [26] · 38 · 工程科学学报,第 42 卷,增刊 1