Use of Iron Nanopowders and High-Energy Mechanical Treatment of Blend for Raising the Density of Articles Obtained by Spark Plasma Sintering

被引:0
|
作者
T. H. Nguyen
Yu. V. Konyukhov
V. M. Nguyen
A. S. Lileev
V. P. Tang
机构
[1] National University of Science and Technology “MISiS”,
[2] Le Quy Don Technical University,undefined
[3] Institute of Technology,undefined
来源
Metal Science and Heat Treatment | 2021年 / 63卷
关键词
spark plasma sintering; powder metallurgy; physical and mechanical properties; micron iron powders; iron nanopowders; magnetic mill; high-energy mechanical treatment;
D O I
暂无
中图分类号
学科分类号
摘要
The effect of nano-modification and high-energy mechanical treatment in a magnetic mill on the process of spark plasma sintering of iron micropowders is studied. Iron nanopowders with a mean particle size of 94 nm are obtained by the method of chemical metallurgy. The nanopowders are introduced into the original blend with the help of a turbulent stirrer and a magnetic mill. The processes occurring during the high-energy mechanical treatment and subsequent sintering are considered, and their effect on the properties and the structure of the sintered specimens is assessed. Optimum variants for fabricating the material are suggested. The results may be used in the production of high-quality permanent magnets.
引用
收藏
页码:214 / 219
页数:5
相关论文
共 50 条
  • [31] Fabrication of lanthanum-doped thorium dioxide by high-energy ball milling and spark plasma sintering
    Scott, Spencer M.
    Yao, Tiankai
    Lu, Fengyuan
    Xin, Guoqing
    Zhu, Weiguang
    Lian, Jie
    JOURNAL OF NUCLEAR MATERIALS, 2017, 485 : 207 - 215
  • [32] Structure and properties of equiatomic CoCrFeNiMn alloy fabricated by high-energy ball milling and spark plasma sintering
    Rogachev, A. S.
    Vadchenko, S. G.
    Kochetov, N. A.
    Rouvimov, S.
    Kovalev, D. Yu
    Shchukin, A. S.
    Moskovskikh, D. O.
    Nepapushev, A. A.
    Mukasyan, A. S.
    JOURNAL OF ALLOYS AND COMPOUNDS, 2019, 805 : 1237 - 1245
  • [33] Spark plasma sintering of a high-energy ball milled Mg-10wt% Al alloy
    M.U.F.Khan
    A.Patil
    J.Christudasjustus
    T.Borkar
    R.K.Gupta
    Journal of Magnesium and Alloys, 2020, (02) : 319 - 328
  • [34] Contamination during the high-energy milling of atomized copper powder and its effects on spark plasma sintering
    Cipolloni, G.
    Pellizzari, M.
    Molinari, A.
    Hebda, M.
    Zadra, M.
    POWDER TECHNOLOGY, 2015, 275 : 51 - 59
  • [35] Production of a Reinforced Refractory Multielement Alloy via High-Energy Ball Milling and Spark Plasma Sintering
    Menapace, Cinzia
    Shaik, Khaja Naib Rasool
    Emanuelli, Lorena
    Ischia, Gloria
    METALS, 2023, 13 (07)
  • [36] Spark plasma sintering of a high-energy ball milled Mg-10 wt% Al alloy
    Khan, M. U. F.
    Patil, A.
    Christudasjustus, J.
    Borkar, T.
    Gupta, R. K.
    JOURNAL OF MAGNESIUM AND ALLOYS, 2020, 8 (02) : 319 - 328
  • [37] Research of structural properties of zinc oxide nanopowders obtained by high-energy mechanical milling (attritor) using Raman spectroscopy
    Yakushova, N. D.
    Pronin, I. A.
    Averin, I. A.
    Vishnevskaya, G. V.
    Sychov, M. M.
    Levitsky, V. S.
    Karmanov, A. A.
    Moshnikov, V. A.
    24TH INTERNATIONAL CONFERENCE ON VACUUM TECHNIQUE AND TECHNOLOGY, 2017, 872
  • [38] Synthesis of YB2C2 by high-energy ball milling and reactive spark plasma sintering
    Nguyen, Van-Quyet
    Kim, Jun-Seop
    Lee, Sea-Hoon
    JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 2021, 104 (03) : 1229 - 1236
  • [39] Development of Fe-9Cr Alloy via High-Energy Ball Milling and Spark Plasma Sintering
    Arnab Kundu
    Anumat Sittiho
    Indrajit Charit
    Brian Jaques
    Chao Jiang
    JOM, 2019, 71 : 2846 - 2855
  • [40] Effects of high-energy ball milling and reactive spark plasma sintering on the densification of HfC-SiC composites
    Feng, Lun
    Lee, Sea-Hoon
    Kim, Ha-Nul
    JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, 2017, 37 (05) : 1891 - 1898
12345