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    Please use this identifier to cite or link to this item: https://irlib.pccu.edu.tw/handle/987654321/20930


    Title: Microstructure and properties of age-hardenable Al(x)CrFe(1.5)MnNi(0.5) alloys
    Authors: Chen, ST (Chen, Shin-Tsung)
    Tang, WY (Tang, Wei-Yeh)
    Kuo, YF (Kuo, Yen-Fu)
    Chen, SY (Chen, Sheng-Yao)
    Tsau, CH (Tsau, Chun-Huei)
    Shun, TT (Shun, Tao-Tsung)
    Yeh, JW (Yeh, Jien-Wei)
    Contributors: 化材系
    Keywords: High-entropy alloys
    Age-hardening
    rho Phase
    Oxidation resistance
    Hot hardness
    Date: 2010-08
    Issue Date: 2011-12-09 13:27:26 (UTC+8)
    Abstract: Two promising high-entropy alloys (HEAs) Al(x)CrFe(1.5)MnNi(0.5) (x = 0.3 and 0.5) were designed from Al-Co-Cr-Cu-Fe-Ni alloys by substituting Mn for expensive Co and excluding Cu to avoid Cu segregation. Microstructures and properties were investigated and compared at different states: as-cast, as-homogenized, as-rolled and as-aged states. Al(0.3)CrFe(1.5)MnNi(0.5) alloy in the as-cast, as-homogenized and as-rolled states has a dual-phase structure of BCC phase and FCC phase, in which Al, Ni-rich precipitates of B2-type BCC structure disperse in the BCC phase. Al(0.5)CrFe(1.5)MnNi(0.5) alloy in the corresponding states has a matrix of BCC phase in which Cr-rich particles of BCC structure and Al, Ni-rich precipitates of B2-type BCC structure disperse. These three BCC phases have the same lattice constant.

    Both alloys are workable and show a hardness range of Hv300-500 in the as-cast, as-forged, as-homogenized and as-rolled states. Al(0.5)CrFe(1.5)MnNi(0.5) alloy has a higher hardness level than Al(0.3)CrFe(1.5)MnNi(0.5) one because of its full BCC phase. Both alloys thus can be used as structural parts requiring stronger strength.

    Both alloys display a significant high-temperature age-hardening phenomenon. As-cast Al(0.3)CrFe(1.5)MnNi(0.5) alloy can attain the highest hardness, Hv 850, at 600 degrees C for 100 h, and Al(0.5)CrFe(1.3)MnNi(0.5) can get even higher hardness, Hv 890. The aging hardening is resulted from the formation of p phase (Cr(5)Fe(6)Mn(8)-like phase). Prior rolling on the alloys before aging could significantly enhance the age-hardening rate and hardness level due to introduced defects. Al(0.5)CrFe(1.5)MnNi(0.5) alloy exhibits excellent oxidation resistance up to 800 degrees C, which is better than Al(0.5)CrFe(1.5)MnNi(0.5) alloy. Combining this merit with its high softening resistance and wear resistance as compared to commercial alloys Al(0.5)CrFe(1.5)MnNi(0.5) alloy has the potential for high-temperature structural applications. (C) 2010 Elsevier B.V. All rights reserved.
    Appears in Collections:[Department of Chemical & Materials Engineering] journal articles

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