Formation of Bulk Samples from the Ti3AlC2 MAX-Phase Powder by Selective Laser Sintering

被引:1
|
作者
Krinitcyn, M. G. [1 ,2 ]
Firsina, I. A. [1 ]
Baranovskiy, A., V [1 ,2 ]
Ragulina, M. P. [2 ]
机构
[1] Russian Acad Sci, Inst Strength Phys & Mat Sci, Siberian Branch, Tomsk 634055, Russia
[2] Natl Res Tomsk Polytech Univ, Tomsk 634050, Russia
来源
INORGANIC MATERIALS-APPLIED RESEARCH | 2022年 / 13卷 / 03期
基金
俄罗斯基础研究基金会;
关键词
selective laser sintering; MAX phases; titanium carboaluminide; LOW-TEMPERATURE SYNTHESIS; MECHANICAL-PROPERTIES; ELECTRONIC-PROPERTIES; COMPOSITES; CERAMICS; CARBIDE; TI2ALC;
D O I
10.1134/S2075113322030212
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Bulk samples have been obtained from the Ti3AlC2 MAX-phase powder by selective laser sintering (SLS). A complex structural-phase study has been carried out using optical and electron microscopy and X-ray diffraction analysis, the elemental and phase composition of the samples has been determined, and the morphology of the initial powders and bulk SLS samples has been described. The modes of selective laser sintering which provide the maximum yield of the MAX phase in the samples after SLS have been determined.
引用
收藏
页码:641 / 645
页数:5
相关论文
共 50 条
  • [41] Slip casting and pressureless sintering of Ti3AlC2
    Gong, Yimin
    Tian, Wubian
    Zhang, Peigen
    Chen, Jian
    Zhang, Yamei
    Sun, Zhengming
    JOURNAL OF ADVANCED CERAMICS, 2019, 8 (03) : 367 - 376
  • [42] Formation of the Ti2Alc Max-Phase in a Hydride Cycle From a Mixture of Titanium and Aluminum Carbohydride Powders
    S. K. Dolukhanyan
    A. G. Aleksanyan
    O. P. Ter-Galstyan
    G. N. Muradyan
    N. L. Mnatsakanyan
    K. V. Asatryan
    A. S. Mnatsakanyan
    Russian Journal of Physical Chemistry B, 2022, 16 : 76 - 83
  • [43] Formation of the Ti2Alc Max-Phase in a Hydride Cycle From a Mixture of Titanium and Aluminum Carbohydride Powders
    Dolukhanyan, S. K.
    Aleksanyan, A. G.
    Ter-Galstyan, O. P.
    Muradyan, G. N.
    Mnatsakanyan, N. L.
    Asatryan, K., V
    Mnatsakanyan, A. S.
    RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY B, 2022, 16 (01) : 76 - 83
  • [44] Microstructural characterization of bulk Ti3AlC2 ceramics
    Ma, XL
    Zhu, YL
    Wang, XH
    Zhou, YC
    PHILOSOPHICAL MAGAZINE, 2004, 84 (28) : 2969 - 2977
  • [45] Mechanochemical synthesis mechanism of Ti3AlC2 MAX phase from elemental powders of Ti, Al and C
    Shahin, N.
    Kazemi, Sh.
    Heidarpour, A.
    ADVANCED POWDER TECHNOLOGY, 2016, 27 (04) : 1775 - 1780
  • [46] Tribophysical properties of polycrystalline bulk Ti3AlC2
    Zhai, HX
    Huang, ZY
    Ai, MX
    Yang, Z
    Zhang, ZL
    Li, SB
    JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 2005, 88 (11) : 3270 - 3274
  • [47] Oxidation and hot corrosion behaviors of MAX-phase Ti3SiC2, Ti2AlC, Cr2AlC
    Li, Xiaojing
    Wang, Shunhua
    Wu, Guixuan
    Zhou, Dapeng
    Pu, Jibin
    Yu, Miao
    Wang, Qiong
    Sun, Qinshuo
    CERAMICS INTERNATIONAL, 2022, 48 (18) : 26618 - 26628
  • [48] Tribological and oxidation resistance performance of Ti2AlC MAX-phase generated by reactive spark plasma sintering
    Ali, Rawaid
    Song, Peng
    Khan, Muhammad
    Ali, Shabir
    Kamli, Majid Rasool
    Sabir, Jamal S. M.
    Huang, Taihong
    Deifalla, Ahmed
    Shakeel
    Lu, Jiansheng
    JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T, 2023, 26 : 8309 - 8326
  • [49] General Trends of Structure Formation in Graded Composite Materials Based on the Ti3AlC2 MAX Phase on Titanium
    Prokopets, A. D.
    Konstantinov, A. S.
    Chizhikov, A. P.
    Bazhin, P. M.
    Stolin, A. M.
    INORGANIC MATERIALS, 2020, 56 (10) : 1087 - 1091
  • [50] First-principles study of hydrogen incorporation into the MAX phase Ti3AlC2
    Ding, Haimin
    Glandut, Nicolas
    Fan, Xiaoliang
    Liu, Qing
    Shi, Yu
    Jie, Jinchuan
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2016, 41 (15) : 6387 - 6393
12345