金属学报  1985, Vol. 21 Issue (6): 15-110

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钒对Fe-Si合金有序相分解和性能的影响

王世道;戴礼智

兰州铁道学院;冶金工业部钢铁研究总院

EFFECT OF VANADIUM ON ORDERING PHASE SEPARATION IN Fe-Si ALLOY

by WANG Shidao Lanzhou Railway Institute; DAI Lizhi L. C. Tai Central Iron and Steel Research Institute; Ministry of Metallurgical Industry; Beijing

王世道;戴礼智. 钒对Fe-Si合金有序相分解和性能的影响[J]. 金属学报, 1985, 21(6): 15-110.
, . EFFECT OF VANADIUM ON ORDERING PHASE SEPARATION IN Fe-Si ALLOY[J]. Acta Metall Sin, 1985, 21(6): 15-110.

摘要 参考文献 相关文章 Metrics 全文: PDF(3042 KB)   摘要: 合金元素钒对含6.5wt-％Si的Fe-Si合金原子有序相分解有很大的影响。本文通过磁性分析、X射线衍射、电镜观察等,对钒的作用进行了研究。发现加入少量钒减弱了合金的有序相分解,改善了合金的塑性并提高磁性;在加入较多钒的合金中观察到A_2+DO_3有序相分解。用Fe-Si,Fe-V,V-Si三个二元合金的热力学数据分析讨论了钒在Fe-Si合金中有序相分解的作用。 Abstract：The alloying element V has remarkable influence on the ordering phase sepa-ration in the Fe-Si alloy containing 6.5 wt-%Si. The behaviour of V was inves-tigated by magnetic method, X-ray diffraction and electron microseopy. It wasfound that an addition of less amout of V may relax the ordering phase sepa-ration and improve the ductility and magnetic properties of the alloy. An A_2+DO_3 ordering phase separation was observed in the 11.57 at.-%Si-Fe alloy con-taining more V, namely, 0.88 at.-%. Discussion has been made of the effect ofV on the ordering phase separation in the Fe-Si alloy on the basis of analysisof thermodynamic data of three binary alloys of Fe-Si, Fe-V and V-Si. 收稿日期: 1985-06-18      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 王世道 戴礼智 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y1985/V21/I6/15 1 Bozorth, R. M., Ferromagnetism, Van Norstrad. New York. 1952, Chap. 2． 2 倪志康;刘玉志,精密合金文集,上海科学技术出版社,1980,p.128． 3 Kernic, A.; Lance. D. H.; Ogden. J. W.; Povlovic. D. M., J Appl. Phys., 38(1967) . 1087． 4 Shewmon. P G., Physical Chemistry in Metallurgy. Proc. of the Conf. Aug. 1976, Eds. Fisher. R. M.; Oriani, R.A.; Turkdogan. E. T. USA Res. Lab., Monroeville. Pa., 1976, p. 375． 5 王世道,戴礼智,钢铁研究总院学报,3(1983) ,341。 6 Lakso, G. E.; Marcinkovski, M. J., Metall, Trans., 5(1974) . 839． 7 43 (1979) . 1415． 8 36 (1973) . 652． 9 Narita. K.; Enokizono, M., IEEE Trans. Magn., MAG-14 (1978) , 258． 10 Navweps Report 7331美国海军武器试验室,国外软磁材料(硅钢及其他软磁材料),上海科技出版社,1973． 11 Stoloff, N.S., Strengthenning Methods in Crystals, Eds. Kelly. A.; Nicholson,R. B., Elsevier Publ, Amsterdam,1971,p.193． 12 Crawford, R.C., Philos Mag., 35(1977) ,567． 13 Beck, P. A., Metall. Trans., 2(1971) , 2015． 14 Swann, P. R.; Granas, L.; Lehtinen, B., Met. Sci., 9(1975) , 90． 15 Thomas, G.; Goringe, M. J., Transmission Electron Microscopy of Materials, Wiley-Interscience Publ. New York, 1979, p. 100． 16 Inden, G.; Pitsch, W., Z. Metallk., 62(1971) ,627． 17 Schlatte, G.; Inden, G.; Pitsch, W., Z. Metallk., 65(1974) ,94． 18 Inden, G.; Z. Metallk, 66(1975) , 577． 19 Kubashewski, O.; Catterall, J. A., Thermochemical Data of Alloys. Pergamon Press, London, 1956, p. 54, 194． 20 Hultgren, R.; Desal, P.D.; Hawkins. D. T.; Gleiser, M.; Kelley, K. K., Setected Values of the Thermodynamic Properties of Binary Alloys, ASM, Metal Park, Ohio, 1973,p. 871, 896． 21 Devereux,O.F., Topics in Metallurgical Thermodynamics, Wiley-Interscience, Publ. New York, 1983, p. 137． No related articles found! Viewed Full text Abstract Cited   Shared      Discussed