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    Journals >Journal of Inorganic Materials >Volume 35 >Issue 1 >Page 35 > Article
    • Journal of Inorganic Materials
    • Vol. 35, Issue 1, 35 (2020)
    Phase Diagrams of Novel MAX Phases
    Lei-Lei CHEN1, Zi-Xuan DENG1, Mian LI1, Peng LI1, Ke-Ke CHANG1、2、*, Feng HUANG1, Shi-Yu DU1, and Qing HUANG1
    Author Affiliations
  • 1Engineering Laboratory of Advanced Energy Materials, Ningbo Institute of Industrial Technology, Chinese Academy of Sciences, Ningbo 315201, China
  • 2Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
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    DOI: 10.15541/jim20190184 Cite this Article
    Lei-Lei CHEN, Zi-Xuan DENG, Mian LI, Peng LI, Ke-Ke CHANG, Feng HUANG, Shi-Yu DU, Qing HUANG. Phase Diagrams of Novel MAX Phases[J]. Journal of Inorganic Materials, 2020, 35(1): 35 Copy Citation Text show less
    References

    [1] Y CHING W, Y MO, S ARYAL et al. Intrinsic mechanical properties of 20 MAX-phase compounds. Journal of the American Ceramic Society, 96, 2292-2297(2013).

    [2] M SUN Z. Progress in research and development on MAX phases: a family of layered ternary compounds. International Materials Reviews, 56, 143-166(2011).

    [3] W BARSOUM M. The M N+1AXN phases: a new class of solids. Progress in Solid State Chemistry of Materials, 28, 201-281(2000).

    [4] H FASHANDI, M DAHLQVIST, J LU et al. Synthesis of Ti3AuC2, Ti3Au2C2 and Ti3IrC2 by noble metal substitution reaction in Ti3SiC2 for high-temperature-stable Ohmic contacts to SiC. Nature Materials, 16, 814(2017).

    [5] M LI, Y LI, K LUO et al. Synthesis of novel MAX phase Ti3ZnC2via A-site-element-substitution approach. Journal of Inorganic Materials, 34, 60-64(2019).

    [6] M LI, J LU, K LUO et al. Element replacement approach by reaction with Lewis acidic molten salts to synthesize nanolaminated MAX phases and MXenes. Journal of the American Chemical Society, 141, 4730-4737(2019).

    [7] G KRESSE, J FURTHMÜLLER. Efficient iterative schemes for ab initi total-energy calculations using a plane-wave basis set. Physical Review B, 54, 11169-11186(1996).

    [8] S LIU, K CHANG, S MRÁZ et al. Modeling of metastable phase formation for sputtered Ti1-xAlxN thin films. Acta Materialia, 165, 615-625(2019).

    [9] K CHANG, M TO BABEN, D MUSIC et al. Estimation of the activation energy for surface diffusion during metastable phase formation. Acta Materialia, 98, 135-140(2015).

    [10] D JOUBERT, G KRESSE. From ultrasoft pseudopotentials to the projector augmented-wave method. Physical Review B, 59, 1758-1775(1999).

    [11] K BURKE, M ERNZERHOF, P PERDEW J. Generalized gradient approximation made simple. Physical Review Letters, 77, 3865-3868(1996).

    [12] T DINSDALE A. SGTE data for pure elements. Calphad, 15, 317-425(1991).

    [13] O REDLICH, T KISTER A. Thermodynamics of nonelectrolyte solutions-xyt relations in a binary system. Industrial & Engineering Chemistry, 40, 341-345(1948).

    [14] K CHANG, Y DU, W SUN et al. Thermodynamic assessment of the V-Zn system supported by key experiments and first-principles calculations. Calphad, 34, 75-80(2010).

    [15] L CHEN, Z ZHANG, Y HUANG et al. Thermodynamic description of the Fe-Cu-C system. Calphad, 64, 225-235(2019).

    [16] I GORBACHEV I, V POPOV V. Analysis of the solubility of carbides, nitrides, and carbonitrides in steels using methods of computer thermodynamics: III. Solubility of carbides, nitrides, and carbonitrides in the Fe-Ti-C, Fe-Ti-N, and Fe-Ti-C-N systems. Physics of Metals & Metallography, 108, 484-495(2009).

    [17] W LUO, Z JIN, H LIU et al. Thermodynamic assessment of the Au-Ti system. Calphad, 25, 19-26(2001).

    [18] C WANG, Y GUO, L YONG et al. Thermodynamic assessment of the Ti-Ir System. Journal of Phase Equilibria & Diffusion, 35, 269-275(2014).

    [19] Z DENG, D ZHAO, Y HUANG et al. Unpublished research.(2018).

    [20] M HÄMÄLÄINEN, I ISOMÄKI. Thermodynamic evaluation of the C-Co-Zn system. Journal of Alloys and Compounds, 392, 220-224(2005).

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    [23] H FASHANDI, C LAI C, M DAHLQVIST et al. Ti2Au2C and Ti3Au2C2 formed by solid state reaction of gold with Ti2AlC and Ti3AlC2. Chemical Communications, 53, 9554-9557(2017).

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    Lei-Lei CHEN, Zi-Xuan DENG, Mian LI, Peng LI, Ke-Ke CHANG, Feng HUANG, Shi-Yu DU, Qing HUANG. Phase Diagrams of Novel MAX Phases[J]. Journal of Inorganic Materials, 2020, 35(1): 35
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