金属学报  1984, Vol. 20 Issue (5): 313-321

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一种γ-Fe-Mn-Al合金的超低温性能及顺磁性-反铁磁性转变

张彦生

中国科学院金属研究所

CRYOGENIC PROPERTIES AND PARAMAGNETISMANTIFERROMAGNETISM TRANSITION OF A γ-Fe-Mn-Al ALLOY

ZHANG Yansheng (Institute of Metal Research; Academia Sinica; Shenyang)(Manuscript received 16 September; 1983; revised manuscript 21 December; 1983)

张彦生. 一种γ-Fe-Mn-Al合金的超低温性能及顺磁性-反铁磁性转变[J]. 金属学报, 1984, 20(5): 313-321.
. CRYOGENIC PROPERTIES AND PARAMAGNETISMANTIFERROMAGNETISM TRANSITION OF A γ-Fe-Mn-Al ALLOY[J]. Acta Metall Sin, 1984, 20(5): 313-321.

摘要 参考文献 相关文章 Metrics 全文: PDF(1002 KB)   摘要: 本文报道一种fcc结构的Fe-Mn-Al合金(Mn 25.6,Al 4.1,C 0.16,Si0.27 wt-％)在超低温的性能、组织结构与磁性转变。此合金在300—4 K间具有适宜的强度、较高的塑性、韧性与很稳定的奥氏体组织。300 K及4 K的磁化率x_v,分别为34.5×10~(-4)与22×10~(-4)。室温电阻率为105μΩ·cm,低温冷收缩率小于一般Fe-Cr-Ni奥氏体钢。其磁化率(x_v)-温度(T)曲线于320 K左右呈现峰值,dx/dT符号的改变表征发生了顺磁性-反铁磁性转变。同时伴有一些物理性能如弹性模量、热膨胀、电阻率等的反常变化。 Al加入Fe-Mn合金中,明显地降低Néel温度(T_N),提高磁化率,并在T_N点处呈现较大的磁化率峰值。与AISI 300系Cr-Ni奥氏体钢比较,γ-Fe-Mn-Al合金的主要特点为在极低温区(如20—4 K)兼具稳定的奥氏体与极低磁化率,是一种潜在的超导磁体用结构合金。 Abstract：Studies were made of the cryogenic properties, structural stability and magnetism transition of a fcc γ-Fe-Mn-Al alloy containing 25.6% Mn,4.1%Al, 0.16%C and 0.27%Si, of which the strength, ductility and austenitic stability are satisfactory at temperature range of 300 to 4 K. Its physical properties were determined as follows: lower magnetic susceptibility about 34.6×10~(-4) to 22×10~(-4) from 300 to 4 K; higher electric resistivity up to 105μΩ·cm and lower cold contraction than conventional Fe-Cr-Ni austenitic steels. A peak value is presented on the plot of temperature T dependence of magnetic susceptibility x at 320 K. The sign change of dx/dT shows the paramagnetism-antiferromagnetism transition at which an anomaly of several physical properties such as elastic modulus, heat expansion, etc. is accompanied. Furthermore, by an addition of Al to Fe-Mn alloy, its Néel temperature may be markedly lowered. The magnetic susceptibility may be increasing to a greater value at Néel temperature. In comparison with AISI 300 Cr-Ni austenitic stainless steels, the γ-Fe-Mn-Al alloy is characterized by both stable austenite and quite low magnetic susceptibility within temperature range down from 20 to 4 K. It seems to be a potential constructional material for superconducting magnet applications. 收稿日期: 1984-05-18      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 张彦生 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y1984/V20/I5/313 1 张彦生,低温钢的现状、研究与发展,中国金属学会第一届特殊钢年会论文,1980,9． 2 Larbalestier, D. C.; King, H. W., Cryogenics, 13(1973) , 160． 3 Wigley, D. A., Mechanical Properties of Materials at Low Temperatures, Plenum Press, New York, 1971, p. 59． 4 Wigley, D. A., ibid., p. 89． 5 张彦生,师昌绪,金属学报,7(1964) ,285． 6 叶基石,金属学报,13(1977) ,149． 7 张彦生,金属学报,19(1983) ,A262． 8 Basinski, Z. S., Proc. R. Soc. London, Ser. A, 240(1957) , 229． 9 Honda Memorial Foundation, Physics and Applications of Invar Alloys, Maruzen Company Ltd., 1978, p. 191． 10 张彦生,γ-Fe-Mn-Al-Cr合金的顺磁性→反铁磁性转变,未发表资料,1983． 11 Abrahams, S. C.; Guttman, L; Kasper, J. S., Phys. Rev., 127 (1962) , 2052． 12 Umebayashi, H,; Ishikawa, Y., J. Phys. Soc. Jpn, 21 (1966) , 1281． 13 Ishikawa, Y.; Kongi, M.; Noda, Y., ibid., 39 (1975) , 675． 14 Endoh, Y.; Ishikawa, Y., ibid., 30 (1971) , 1614． 15 Shiga, M., ibid., 22(1967) , 539． 16 Hayase, M., ibid., 30 (1971) , 729． 17 Ledbetter, H. M.; Weston, W. F.; Naimon, E. R., J. Appl. Phys., 46 (1975) , 3855． 18 Ledbetter, H. M., Mater. Sci. Eng. 29 (1977) , 255． 19 Ledbetter, H. M., Advancesin Cryogenic Engineering, Vol. 24, Eds, Timmerhaus, K. D.; Reed, R. P.; Clark, A. F., Plenum Press, New York and London, 1978, p. 103． 20 Fujimori, H., J. Phys. Soc. Jpn, 21 (1966) , 1860． 21 Asano, S.; Yamashita, J., J. Phys. Soc. Jpn, 31(1971) , 1000． 22 Asano, S.; Yamashita, J., J. Phys. Soc. Jpn, 23(1967) , 714． 23 Warnes, L. A. A.; King, H. W., Cryogenics, 16(1976) , 659． No related articles found! Viewed Full text Abstract Cited   Shared      Discussed