Thermoanalytical study of energy saturated electroexplosive nanopowders

Abstract

The storage of excess superequilibrium energy occurs in final products of wire electrical explosion. This effect can be successfully used in different fields: in processes of combustion, sintering, and chemical reactions. In the present work, thermal analysis is suggested as a method for the determination of excess energy value. According to results of the thermal analysis, the excess energy for nanosized aluminum can reach a value equal 3-6 enthalpies of metal melting point.

Original language	English
Title of host publication	Proceedings - 6th Russian-Korean International Symposium on Science and Technology, KORUS 2002
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	317-319
Number of pages	3
ISBN (Print)	0780374274, 9780780374270
DOIs	https://doi.org/10.1109/KORUS.2002.1028029
Publication status	Published - 2002
Event	6th Russian-Korean International Symposium on Science and Technology, KORUS 2002 - Novosibirsk, Russian Federation Duration: 24 Jun 2002 → 30 Jun 2002

Other

Other	6th Russian-Korean International Symposium on Science and Technology, KORUS 2002
Country	Russian Federation
City	Novosibirsk
Period	24.6.02 → 30.6.02

Keywords

excess energy
nanosized powders
thermal analysis
thermal effects
wire electrical explosion

ASJC Scopus subject areas

Civil and Structural Engineering
Electrical and Electronic Engineering
Industrial and Manufacturing Engineering
Mechanics of Materials
Architecture
Electronic, Optical and Magnetic Materials
Medicine (miscellaneous)

Access to Document

10.1109/KORUS.2002.1028029

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Thermoanalytical study of energy saturated electroexplosive nanopowders. / An, Vladimir Vilorievich; Ilyin, A. P.; Yablunovskii, Gennady Vladimirovich.

Proceedings - 6th Russian-Korean International Symposium on Science and Technology, KORUS 2002. Institute of Electrical and Electronics Engineers Inc., 2002. p. 317-319 1028029.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

An, VV, Ilyin, AP & Yablunovskii, GV 2002, Thermoanalytical study of energy saturated electroexplosive nanopowders. in Proceedings - 6th Russian-Korean International Symposium on Science and Technology, KORUS 2002., 1028029, Institute of Electrical and Electronics Engineers Inc., pp. 317-319, 6th Russian-Korean International Symposium on Science and Technology, KORUS 2002, Novosibirsk, Russian Federation, 24.6.02. https://doi.org/10.1109/KORUS.2002.1028029

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abstract = "The storage of excess superequilibrium energy occurs in final products of wire electrical explosion. This effect can be successfully used in different fields: in processes of combustion, sintering, and chemical reactions. In the present work, thermal analysis is suggested as a method for the determination of excess energy value. According to results of the thermal analysis, the excess energy for nanosized aluminum can reach a value equal 3-6 enthalpies of metal melting point.",

keywords = "excess energy, nanosized powders, thermal analysis, thermal effects, wire electrical explosion",

author = "An, {Vladimir Vilorievich} and Ilyin, {A. P.} and Yablunovskii, {Gennady Vladimirovich}",

year = "2002",

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language = "English",

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pages = "317--319",

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note = "6th Russian-Korean International Symposium on Science and Technology, KORUS 2002 ; Conference date: 24-06-2002 Through 30-06-2002",

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N2 - The storage of excess superequilibrium energy occurs in final products of wire electrical explosion. This effect can be successfully used in different fields: in processes of combustion, sintering, and chemical reactions. In the present work, thermal analysis is suggested as a method for the determination of excess energy value. According to results of the thermal analysis, the excess energy for nanosized aluminum can reach a value equal 3-6 enthalpies of metal melting point.

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KW - nanosized powders

KW - thermal analysis

KW - thermal effects

KW - wire electrical explosion

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BT - Proceedings - 6th Russian-Korean International Symposium on Science and Technology, KORUS 2002

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