Current development of creep-resistant magnesium cast alloys: A review

被引:155
|
作者
Mo, Ning [1 ]
Tan, Qiyang [1 ]
Bermingham, Michael [1 ]
Huang, Yuanding [2 ]
Dieringa, Hajo [2 ]
Hort, Norbert [2 ]
Zhang, Ming-Xing [1 ]
机构
[1] Univ Queensland, Sch Mech & Min Engn, St Lucia, Qld 4072, Australia
[2] Helmholtz Zentrum Geesthacht, MagIC Magnesium Innovat Ctr, D-21502 Geesthacht, Germany
来源
MATERIALS & DESIGN | 2018年 / 155卷
关键词
Magnesium alloys; Creep resistance; Microstructure; Metallography; AGE-HARDENING RESPONSE; TEMPERATURE MECHANICAL-PROPERTIES; STRENGTHENING PRECIPITATE PHASES; STRESS-RELAXATION BEHAVIOR; ALPHA-MN PRECIPITATION; DIE-CAST; RARE-EARTH; TENSILE PROPERTIES; MICROSTRUCTURE EVOLUTION; DEFORMATION-BEHAVIOR;
D O I
10.1016/j.matdes.2018.06.032
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The low creep resistance has been one of the major issues of Mg alloys, which limited their wider industrial applications in the past decades. It has been reported that the inherent creep resistance of Mg should be higher than that Al. Hence, it is highly likely that the low creep resistance of Mg alloys was attributed to the effects of alloying elements rather than Mg itself. In order to systematically understand the effects of alloying elements on the creep behaviours of cast Mg alloys and therefore to develop new alloys with higher creep resistance, the present work reviews the major creep-resistant Mg systems that were developed and successfully commercialized for applications at different temperatures. Because the majority of commercial Mg alloys are used as cast, this review focuses on cast alloys. (C) 2018 Elsevier Ltd. All rights reserved.
引用
收藏
页码:422 / 442
页数:21
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  • [21] DISCUSSION - APPLICATION OF MODERN CONCEPTS OF METAL PHYSICS TO DEVELOPMENT OF CREEP-RESISTANT ALLOYS
    ROTHERHA.L
    GITTUS, JH
    ARGENT, BB
    JONES, BR
    MITRA, SK
    LANGDON, TG
    EVANS, RW
    HARRIS, JE
    SILCOCK, JM
    MITCHELL, WI
    MCLEAN, D
    POLLARD, G
    BAIRD, JD
    BADER, MG
    NUTTING, J
    JONES, P
    GREENWOO.GW
    BROOMFIE.RW
    WILSHIRE, B
    DAVIES, PW
    BROOM, T
    RARATY, L
    SLATTERY, G
    PFEIL, PCL
    [J]. JOURNAL OF THE INSTITUTE OF METALS, 1965, 93 : 320 - &
  • [22] Development and application of creep resistant magnesium alloys for automobile
    Li, Jian-Hong
    Li, Quan-An
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  • [23] Methods of improvement of resistance to carburization of creep-resistant cast steels
    [J]. Kubicki, J., 2000, Faculty of Metallurgy (40):
  • [24] Methods of improvement of resistance to carburization of creep-resistant cast steels
    Kubicki, J
    Piekarski, B
    [J]. METALURGIJA, 2001, 40 (01): : 47 - 50
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    Garbiak, Malgorzata
    Chylinska, Renata
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  • [26] CREEP FRACTURE IN NICKEL-CHROMIUM-BASE CREEP-RESISTANT ALLOYS
    HESLOP, J
    [J]. JOURNAL OF THE INSTITUTE OF METALS, 1962, 91 (01): : 28 - &
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    EROKHIN, AA
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  • [28] CARBIDE FORMATION IN CAST CREEP-RESISTANT NICKEL-ALLOY
    SHULGA, AV
    NIKISHANOV, VV
    PODOLSKII, MS
    KUZMICHEVA, LG
    [J]. RUSSIAN METALLURGY, 1991, (05): : 107 - 109
  • [29] Development of creep and fatigue resistant alloys at MIDHANI cast superalloys
    Rao, N
    [J]. TRANSACTIONS OF THE INDIAN INSTITUTE OF METALS, 2000, 53 (03): : 475 - 478
  • [30] Effects of manganese on the microstructure and dynamic precipitation in creep-resistant cast Mg-Ce-Mn alloys
    Celikin, M.
    Kaya, A. A.
    Gauvin, R.
    Pekguleryuz, M.
    [J]. SCRIPTA MATERIALIA, 2012, 66 (10) : 737 - 740
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