金属学报  1983, Vol. 19 Issue (4): 1-141

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30Mn20Al3无磁钢及低温钢的研究

张彦生;苏丽娟

中国科学院金属研究所;中国科学院金属研究所

A STUDY ON NON-MAGNETIC AND CRYOGENIC STEEL 30Mn20A13

by ZHANG Yansheng; SU Lijuan (Institute of Metal Research; Academia Sinica; Shenyang) (Manuscript received 28 July; 1982)

张彦生;苏丽娟. 30Mn20Al3无磁钢及低温钢的研究[J]. 金属学报, 1983, 19(4): 1-141.
, . A STUDY ON NON-MAGNETIC AND CRYOGENIC STEEL 30Mn20A13[J]. Acta Metall Sin, 1983, 19(4): 1-141.

摘要 参考文献 相关文章 Metrics 全文: PDF(1870 KB)   摘要: 本文设计并研制出一种Fe-Mn-Al系无磁钢——30Mn20Al3,其合金成分(wt-％)为C0.28-0.32,Mn19-22,Al2.6-3.1,Si≤0.6。同时还研究了Al,C等元素对Fe-20Mn奥氏体稳定性、合金的力学性能等的影响。 实验结果表明,Fe-Mn合金中加入Al可抑制γ→ε及γ→ε→α′相的转变,使马氏体转变温度降低。碳稳定奥氏体的作用更为显著。 30Mn20Al3与1Cr18Ni9Ti相比较,强度与塑性均高,奥氏体稳定性亦大,磁导率低而电阻率高。其成本则只为1Cr18Ni9Ti的1/3左右,且资源丰富,具有发展为实用钢种的价值。可代替1Cr18Ni9Ti、铝合金等作为无磁钢及低温钢用于电气工业和低温工程中。 Abstract：A study was made of the development of a cheaper and more satisfactory non-magnetic steel 30Mn20Al3 after consideration of the stable austenitie structure for Fe-Mn-A1 series. The effects of A1 and C contents on the stability of Fe-20Mn austenite and the mechanical properties of the alloy have been investigated. Results show that an addition of A1 to Fe-Mn alloy may restrain the transformation of γ→ε and γ→ε→α', and reduce the martensitic transition temperature. The action of C on austenite stabilization may be more obvious, As compared with the wellknown austenitie stainless steel 1Cr18Ni9Ti, the steel 30Mn20A13 exhibited superior strength, plasticity, austenite stability, magnetic permeability and resistivity, as well as more satisfactory low temperature properties. Based upon the abovementioned, it is recommended that the steel 30Mn20A13 seems to be available for nonmagnetic and cryogenic uses even down to -196℃. In additional, its production costs may be reduced to such extent about 1/3 of that for 1Cr18Ni9Ti. 收稿日期: 1983-04-18      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 苏丽娟 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y1983/V19/I4/1 1 张彦生;师昌绪,金属学报,7(1964) ,285． 2 张彦生,1980年中国金属学会特殊钢年会论文(即将出版). 3 叶基石,金属学报,13(1977) .149． 4 张彦生,待发表资料. 5 Tofaute, W.; Linden, K., Arch. Eisenhuettenwes., 10 (1937) , 515． 6 Cina, B., Acta Metall, 6 (1958) , 748． 7 金属研究所,抚顺钢厂,未公开发表资料,1979． 8 金属研究所,抚顺钢厂,未公开发表资料,1978, 9 Duggin, M, J., Nature, 216 (1967) , 362． 10 Honda Memorial Foundation, Physics and Applications of Invar Alloys, Maruzcn Company Ltd, 1978, p. 132． 11 Benkisser, G., Neue Huette, 17 (1972) , 475． 12 Ledbetter, H. M., Mater. Sci. Eng., 29 (1977) , 225． 13 Handbook on Materials for Superconducting Machinery, Publ. Metal and Ceramics Information Center, 1974, p. 7． 1． 1-7; 8． 1． 6-7． 14 Yoshimura Hirofumi; Yamada Nao-omi; Yada Hiroshi; Honma Hiroyuki; Ito Teiji, Trans. Iron Steel Inst. Jpn., 16 (1976) , 98． No related articles found! Viewed Full text Abstract Cited   Shared      Discussed