Acta Metall Sin  1984, Vol. 20 Issue (1): 9-16    DOI:

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PRECIPITATION OF NbC IN FERRITE AND ITS EFFECT ON PRECIPITATION-STRENGTHENING OF MICROALLOY STEELS

YONG Qilong; ZHENG Lu (Central Iron and Steer Research Institute; Ministry of MetaZlurgical Industry; Beijing) (Manuscript received 20 September; 1982; revised manuscript 4 June; 1983)

YONG Qilong; ZHENG Lu (Central Iron and Steer Research Institute; Ministry of MetaZlurgical Industry; Beijing) (Manuscript received 20 September; 1982; revised manuscript 4 June; 1983). PRECIPITATION OF NbC IN FERRITE AND ITS EFFECT ON PRECIPITATION-STRENGTHENING OF MICROALLOY STEELS. Acta Metall Sin, 1984, 20(1): 9-16.

Abstract References Related Articles Recommended Metrics Download:  PDF(1406KB)  Export:  BibTeX | EndNote (RIS)       Abstract  The precipitation of NbC in ferrite and its effect on the precipitation-strengthening of the microalloy steels containing 3 different percentages of Nb, i.e. 0.24, 0.15 and 0.08％, have been studied. The critical NbC nucleus size, the rate of homogeneous nucleation, the temperature of the maximum rate of homogeneous nucleation and the time for complete precipitation were estimated in agreement between the calculated and experimental results. The precipitation-strengtheningseems to have optimum effect on the steels by isothermal precipitation for 1 h at about 600℃. Moreover, an improvement of the formula for the yield strength increment by the platelike NbC precipitates was also made. It is shown that, even the size of NbC precipitates down to 2.6nm, the mechanism of the precipitation-strengthening is still that of the Orowan's. Received:  18 January 1984      Service E-mail this article Add to citation manager E-mail Alert RSS （） Articles by authors URL:  https://www.ams.org.cn/EN/     OR     https://www.ams.org.cn/EN/Y1984/V20/I1/9 1 Morrison, W.B.; Woodhead, J.H., J. Iron Steel Inst., 201 (1963) , 43． 2 Morrison, W.B., J. Iron Steel Inst., 201 (1963) , 317． 3 Gray, J.M.; Webster, D.; Woodhead, J.H., ibid., 203 (1965) , 812． 4 Bucher, J.H., Trans. Metall. Soc. AIME, 239 (1967) , 478． 5 Gray, J.M.; Yeo, R.B.G., Trans. ASM Q., 61(1968) , 255． 6 Pickering, F.B.; Gladman, T., J. Iron Steel Inst., Spec. Rep., № 81． 1967, p. 10． 7 Davenport, A.T.; Berry, F.G.; Honeycombe, R.W.K., Met. Sci., 2(1968) , 104． 8 Gray, J.M., Metall. Trans., 3 (1972) , 1495． 9 Batte, A.D.; Honeycombe, R. W. K., J. Iron Steel., Inst., 211 (1973) , 284． 10 A. B., MuTOM, (1973) , № 4, 19． 11 Ohmori, Y., Trans. Iron Steel Inst. Jpn, 15 (1975) , 194． 12 Cohen, M.; Owen, W.S., Microalloying 75, Proc. Int. Symp. High Strength Low Alloys steels, Union Carbide Corporation, New York, 1977, p. 2． 13 林栋梁,金属学报,14(1978) ,323． 14 Honeycombe, R.W.K., Scand. J. Met., 8(1979) , 21． 15 Irvine, K.J.; Picketing, F.B.; Gladman, T., J. Iron Steel Inst., 205 (1967) , 1651． 16 Nordbery, H.; Aronsson, B., ibid., 206 (1968) , 1263． 17 郑鲁;雍岐龙,碳化铌在微合金钢中的溶解,1981(待发表). 18 雍岐龙,研究生论文,冶金部钢铁研究总院,1981． 19 Pickering, F.B., Physical Metallurgy and the Design of Steel, Appl. Sci. Publ., London, 1978, p. 72． 20 Von Prnka, T., Arch. Eisenhuettenwes., 42(1971) , 919． 21 Smith, D. W.; Hehemann, R.F., J. Iron Steel Inst., 209 (1971) , 476． 22 Malik, L.; Lund, J.A, , Metall. Trans., 3 (1972) , 1403． No related articles found! No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed