Mechanisms of metallic nanoparticle generation during an electric explosion of conductors

被引:0
|
作者
N. B. Volkov
A. E. Mayer
V. S. Sedoi
E. L. Fen’ko
A. P. Yalovets
机构
[1] Russian Academy of Sciences,Institute of Electrophysics, Ural Branch
[2] Southern Ural State University,Institute of High
[3] Russian Academy of Sciences,Current Electronics, Siberian Branch
来源
Technical Physics | 2010年 / 55卷
关键词
Vortex Ring; Explosion Product; Electric Explosion; Free Path Length; Wire Radius;
D O I
暂无
中图分类号
学科分类号
摘要
The mechanisms of conductor fracture and the generation of metallic nanoparticles during an electric explosion are discussed. The fracture of polycrystalline conductors with a crystallite size smaller than 100 nm during rapid introduction of energy is shown to occur due to its localization at grain boundaries. The dynamics of the explosion products (droplets, vapor) flying into a buffer gas is numerically simulated in terms of the mechanics of heterogeneous media with allowance for condensation and evaporation. The calculated size distributions of particles agree with the experimental distributions both qualitatively and quantitatively.
引用
收藏
页码:509 / 513
页数:4
相关论文
共 50 条
  • [11] The Electric Explosion of Conductors in Megagauss Magnetic Fields
    Oreshkin V.I.
    Chaikovsky S.A.
    Datsko I.M.
    Labetskaya N.A.
    Oreshkin E.V.
    Rybka D.V.
    Van’kevich V.A.
    Bulletin of the Russian Academy of Sciences: Physics, 2018, 82 (4) : 399 - 403
  • [12] CALCULATION OF VOLTAGE IMPULSE IN ELECTRIC EXPLOSION OF CONDUCTORS
    BUDOVICH, VL
    KUZHEKIN, IP
    ELECTRICAL TECHNOLOGY, 1975, (01): : 24 - 32
  • [13] Mechanism of Formation of the Coating/Substrate Interface during the Treatment of Conductors by an Electric Explosion Plasma
    V. D. Sarychev
    S. A. Nevskii
    D. A. Romanov
    A. Yu. Granovskii
    A. D. Filyakov
    K. V. Sosnin
    Russian Metallurgy (Metally), 2019, 2019 : 289 - 293
  • [14] Mechanism of Formation of the Coating/Substrate Interface during the Treatment of Conductors by an Electric Explosion Plasma
    Sarychev, V. D.
    Nevskii, S. A.
    Romanov, D. A.
    Granovskii, A. Yu.
    Filyakov, A. D.
    Sosnin, K. V.
    RUSSIAN METALLURGY, 2019, 2019 (04): : 289 - 293
  • [15] On the equations of state for metals in the electric explosion models of conductors
    S. A. Khainatskii
    Surface Engineering and Applied Electrochemistry, 2010, 46 : 230 - 234
  • [16] On the Equations of State for Metals in the Electric Explosion Models of Conductors
    Khainatskii, S. A.
    SURFACE ENGINEERING AND APPLIED ELECTROCHEMISTRY, 2010, 46 (03): : 230 - 234
  • [17] APPROXIMATE SIMILARITY OF ELECTRIC CHARACTERISTICS OF UNDERWATER EXPLOSION OF CONDUCTORS
    KRIVITSKII, EV
    SHOLOM, VK
    ZHURNAL TEKHNICHESKOI FIZIKI, 1974, 44 (06): : 1271 - 1276
  • [18] Preparation of disperse materials with micron, submicron and nanostructured matter particles under electric explosion of thin metallic conductors
    Baranov, M., I
    ELECTRICAL ENGINEERING & ELECTROMECHANICS, 2012, (04) : 45 - 49
  • [19] Observation of the partial reheating of the metallic vapor during the wire explosion process for nanoparticle synthesis
    Bora, B.
    Kausik, S. S.
    Wong, C. S.
    Chin, O. H.
    Yap, S. L.
    Soto, L.
    APPLIED PHYSICS LETTERS, 2014, 104 (22)
  • [20] TEMPERATURE-ELECTRIC DOMAINS IN METALLIC CONDUCTORS
    KADIGROBOV, AM
    SLUTSKIN, AA
    KRIVOSHEI, IV
    ZHURNAL EKSPERIMENTALNOI I TEORETICHESKOI FIZIKI, 1984, 87 (04): : 1314 - 1329
12345