Volume 2, Issue 4, December 2016, Page: 51-55
Electrical Exploding Wires as the Source of Nanoparticles
Volodymyr Chumakov, Independent Scholar, Kharkiv, Ukraine
Oleksandr Stolarchuk, Independent Scholar, Kharkiv, Ukraine
Mikhailo Ostrizhnoi, Independent Scholar, Kharkiv, Ukraine
Received: Jul. 22, 2016;       Accepted: Aug. 12, 2016;       Published: Dec. 29, 2016
DOI: 10.11648/j.ajn.20160204.13      View  3444      Downloads  106
Abstract
The results of experimental investigations of metal nanoparticles produce on the basis of the electrical exploding conductors effect for medical using are presented. Experimental equipment is designed. Analysis of copper nanoparticles biological activity was was carried out. Simplified model for calculating the current integral is shown.
Keywords
Nanoparticles, Electrical Exploding Wires, Current Integral
To cite this article
Volodymyr Chumakov, Oleksandr Stolarchuk, Mikhailo Ostrizhnoi, Electrical Exploding Wires as the Source of Nanoparticles, American Journal of Nanosciences. Vol. 2, No. 4, 2016, pp. 51-55. doi: 10.11648/j.ajn.20160204.13
Copyright
Copyright © 2016 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
Chace W. G. Exploding wires. New York: Plenum Press, 1962.
[2]
Burtsev V. A., Kalinin N. V., Luchinskii A. V. Electrical explosive of wires and its application in electrophysicat equipment. M.: Energoatomizdat, 1990–289 p.
[3]
Bakulin Yu. D., Diyankov V. S., Kormilitsyn A. I. Accelerators of direct function with inductive energy storages and exploading wires [Uskoriteli priamogo deistvia s induktivnymy nakopiteliami energii I vzryvayushimisia provodnikami]. Pribory I tehnika eksperimenta.–1979.–№ 2.–pp. 34-37.
[4]
Knoepfel H. Pulsed high magnetic fields. North-Holland Publishing Company, Amsterdam-London, 1970, 357p.
[5]
Maliushevski P. P. Osnovy razriadno-impulsnoi tehnologii [Basis of the pulse-discharge technology]. Kiev, Naukova dumka, 1983–272 p.
[6]
Krivitskii Ye, V. Dinamika elektrovzryva v zhydkosti. [Dynamics of the electrical explosive in liquids]. Kiev, Naukova dumka, 1986–208 p.
[7]
Chumakov V. I., Taranchuk A. A., Stolarchuk A. V., Ostrizhnoi M. A. Nanoparticle generation on plasma technology. The 5th Int. Workshop on Advanced Material Sci. and Nanotechnology, IWAMSN 2010, Hanoi, Vietnam, Nov. 9-12, 2010, NLE-P13.
[8]
Babushkina I. V. Nanochastitsy metallov v lechenii eksperimentalnyh gnoinyh ran [Metal nanoparticles in the treatment of experimental purulent wounds]. Saratovskii nauchno-meditsynskii zhurnal, 2011. Vol. 7, No. 2, pp. 530-533.
[9]
Gulchenko S. I., Gusev A. A., Zakharova O. V. Perspektivy sozdanija antibakterialnyh preparatov na osnove nanochastits medi [Perspectives of creation of antibacterial preparations based on copper nanoparticles]. Vestnic Tambovskogo universiteta. Seria: Estestvennie i technicheskie nauki, 2014, No. 5, v. 19, pp. 1397-1399.
[10]
Pershina A. G., Sazonov A. E., Itin V. I., Terehova O. G., Magaeva A. A. Adsorption of proteins on the nanoscale particles of the powder CoFe2O4 [Adsorbtsia belkov na chastitsah nanorazmernogo poroshka CoFe2O4]. Nanosystems, Nanomaterials, Nanotechnologies, 2008, Vol. 6, No 3, pp. 1019–1028.
[11]
Lopat’ko K. G., Aftandiliants E. G., Zaulichnyi Ya. V., Karpets M. V. Preparation and use of nanoparticles, containing copper and silver. [Poluchenie I primenenie nanochastits, soderzhastchih med’ i serebro]. - 2010.-233-243 // www.nbuv.gov.ua/portal/natural/Teke/2010/10ekgmis. Pdf
[12]
Mikubaeva E. V., Kobotaeva N. S., Skorohodova T. S., Sirotkina E. E. Investigation of the reactivity of copper nanopowders in the test reactions by microcalorimetric method. [Issledovanie reaktcionnoi sposobnosti nanoporoshkov medi v testovyh reaktsiyah mikrokalorimetricheskim metodom]. Izvestia Tomskogo politehnicheskogo universiteta.–2008, vol. 312, No. 3, pp. 67–71.
[13]
Kotov Yu. A. Electric explosion of wires as a method for preparation of nanopowders // J. of Nanopart., 2003, (5), pp. 539-550.
[14]
Oreshkin V. I., Barengol’ts S. A., Chaikovsky S. A. Numerical calculation of the current specific action integral at the electrical explosion of wires // Technical Physics, Vol. 52, No. 5, May 2007, pp. 642-650.
[15]
Controlled high-current discharger / V. I. Chumakov, O. V. Stolarchuk, G. F. Koniakhin, M. A. Ostrizhnoi / Pat. of Ukraine № 49383, 2012.
[16]
Kolgatin, S. N., Lev, M. L., Peregud, B. P., Stepanov A. M., Fedorova T. A., Furman A. S., Hachatur’iants A. V. Destruction of Copper Conductors due to the Current Flow in Them of the Density of above 107 A/cm2. [Razrushenie mednyh provodnikov pri protekanii po nim toka plotnost’yu, bolshei 107 A/cm2.] Zh. Tekh. Fiz. 1989, V.59, No.9,: pp. 123-133.
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