Copper surface structuring under the action of electric discharge

被引:0
作者
S. A. Pyachin
V. G. Zavodinsky
A. P. Kuz’menko
M. A. Pugachevsky
A. A. Burkov
D. I. Timakov
机构
[1] Russian Academy of Sciences,Institute of Materials Science, Khabarovsk Scientific Center, Far East Branch
[2] Kursk State Technical University,undefined
来源
Technical Physics Letters | 2010年 / 36卷
关键词
Technical Physic Letter; Copper Nanoparticles; Copper Foil; Marangoni Number; Foil Surface;
D O I
暂无
中图分类号
学科分类号
摘要
The surface of copper cathode foils with thicknesses up to 50 μm has been studied after a single discharge current pulse with an amplitude of up to 60 A and a pulse duration within 50–1300 μs in air at atmospheric pressure. It is established that the foil surface upon discharge is covered by copper nanoparticles with diameters above 30 nm, which form an ordered array with a cellular structure and dimensions of up to several hundred nanometers. A possible mechanism of this self-ordered structure formation is qualitatively described.
引用
收藏
页码:652 / 655
页数:3
相关论文
共 50 条
[21]   Longwave Marangoni instability in a binary mixture under the action of vibration: Influence of the heat transfer on a free surface [J].
Fayzrakhmanova, I. S. ;
Shklyaev, S. ;
Nepomnyashchy, A. A. .
EUROPEAN PHYSICAL JOURNAL-SPECIAL TOPICS, 2011, 192 (01) :95-100
[22]   Longwave Marangoni instability in a binary mixture under the action of vibration: Influence of the heat transfer on a free surface [J].
I.S. Fayzrakhmanova ;
S. Shklyaev ;
A.A. Nepomnyashchy .
The European Physical Journal Special Topics, 2011, 192 :95-100
[23]   Optical breakdown on a target surface under a simultaneous laser pulse action at the wavelength of 248 and 532 nm [J].
A. A. Ilyin ;
I. G. Nagornyi ;
O. A. Bukin .
Technical Physics Letters, 2013, 39 :680-682
[24]   Breakage of rocks by pulsed electric discharge at elevated pressures and temperatures [J].
V. F. Vazhov ;
R. R. Gafarov ;
S. Yu. Datskevich ;
M. Yu. Zhurkov ;
V. V. Lopatin ;
V. M. Muratov ;
B. Jeffryes .
Technical Physics Letters, 2011, 37
[25]   Diffusion positive column of electric discharge in transverse magnetic field [J].
Ul'yanov, D. K. ;
Ul'yanov, K. N. .
TECHNICAL PHYSICS LETTERS, 2011, 37 (03) :200-203
[26]   Diffusion positive column of electric discharge in transverse magnetic field [J].
D. K. Ul’yanov ;
K. N. Ul’yanov .
Technical Physics Letters, 2011, 37
[27]   Features of metal surface structuring by high-power femtosecond laser pulses [J].
I. O. Yavtushenko ;
M. S. Yavtushenko ;
I. O. Zolotovskii ;
S. G. Novikov ;
A. V. Berintsev ;
A. S. Kadochkin ;
D. A. Stoliarov ;
B. B. Kostishko ;
N. A. Bunakov .
Technical Physics Letters, 2015, 41 :743-746
[28]   Features of metal surface structuring by high-power femtosecond laser pulses [J].
Yavtushenko, I. O. ;
Yavtushenko, M. S. ;
Zolotovskii, I. O. ;
Novikov, S. G. ;
Berintsev, A. V. ;
Kadochkin, A. S. ;
Stoliarov, D. A. ;
Kostishko, B. B. ;
Bunakov, N. A. .
TECHNICAL PHYSICS LETTERS, 2015, 41 (08) :743-746
[29]   Suppressing intensive self-oscillations of shock waves by electric discharge [J].
Fomin, V. M. ;
Postnikov, B. V. ;
Lomanovich, K. A. .
TECHNICAL PHYSICS LETTERS, 2011, 37 (07) :686-688
[30]   Suppressing intensive self-oscillations of shock waves by electric discharge [J].
V. M. Fomin ;
B. V. Postnikov ;
K. A. Lomanovich .
Technical Physics Letters, 2011, 37 :686-688
12345