Processing of energy materials in electromagnetic field

Abstract

This paper presents the research results of complex impact of mechanical stress and electromagnetic field on the defect structure of energy materials. As the object of research quite a typical energy material - silver azide was chosen, being a model in chemistry of solids. According to the experiments co-effect of magnetic field and mechanical stress in silver azide crystals furthers multiplication, stopper breakaway, shift of dislocations, and generation of superlattice dislocations - micro-cracks. A method of mechanical and electric strengthening has been developed and involves changing the density of dislocations in whiskers.

Original language	English
Title of host publication	IOP Conference Series: Materials Science and Engineering
Publisher	Institute of Physics Publishing
Volume	91
Edition	1
DOIs	https://doi.org/10.1088/1757-899X/91/1/012046
Publication status	Published - 14 Sep 2015
Event	6th International Scientific Practical Conference on Innovative Technologies and Economics in Engineering - Yurga, Russian Federation Duration: 21 May 2015 → 23 May 2015

Conference

Conference	6th International Scientific Practical Conference on Innovative Technologies and Economics in Engineering
Country	Russian Federation
City	Yurga
Period	21.5.15 → 23.5.15

ASJC Scopus subject areas

Engineering(all)
Materials Science(all)

Access to Document

10.1088/1757-899X/91/1/012046

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Rodzevich, AP, Kuzmina, LV, Gazenaur, EG & Krasheninin, VI 2015, Processing of energy materials in electromagnetic field. in IOP Conference Series: Materials Science and Engineering. 1 edn, vol. 91, 012046, Institute of Physics Publishing, 6th International Scientific Practical Conference on Innovative Technologies and Economics in Engineering, Yurga, Russian Federation, 21.5.15. https://doi.org/10.1088/1757-899X/91/1/012046

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abstract = "This paper presents the research results of complex impact of mechanical stress and electromagnetic field on the defect structure of energy materials. As the object of research quite a typical energy material - silver azide was chosen, being a model in chemistry of solids. According to the experiments co-effect of magnetic field and mechanical stress in silver azide crystals furthers multiplication, stopper breakaway, shift of dislocations, and generation of superlattice dislocations - micro-cracks. A method of mechanical and electric strengthening has been developed and involves changing the density of dislocations in whiskers.",

author = "Rodzevich, {Alexander Pavlovich} and Kuzmina, {L. V.} and Gazenaur, {E. G.} and Krasheninin, {V. I.}",

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AB - This paper presents the research results of complex impact of mechanical stress and electromagnetic field on the defect structure of energy materials. As the object of research quite a typical energy material - silver azide was chosen, being a model in chemistry of solids. According to the experiments co-effect of magnetic field and mechanical stress in silver azide crystals furthers multiplication, stopper breakaway, shift of dislocations, and generation of superlattice dislocations - micro-cracks. A method of mechanical and electric strengthening has been developed and involves changing the density of dislocations in whiskers.

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