Investigation of the microstructure evolution of sheet material under different types of pulse elecrohydraulical forming

Received: 04 February 2014; Revised: 18 February 2014; Accepted: 29 April 2014
This paper is written in Russian
Citation: D.R. Avramets. Investigation of the microstructure evolution of sheet material under different types of pulse elecrohydraulical forming. Letters on Materials, 2014, 4(3) 141-144
BibTex   DOI: 10.22226/2410-3535-2014-3-141-144

Abstract

 The features of plastic deformation of aluminum alloy 6111 sheets are investigated by stereological methods after combi-nations of pulse treatment from electrical discharge in water with static treatment concerning to pulse electrohydralical forming. The influence of deformation ratio to grain structure evolution depending of forming features was studied.

References (11)

1.
B.J. Mazurovsky, A.N. Sizev. Electrohydraulical effectin sheet forming. Kyiv.: Naykova dymka. (1983) 192p. (In Russian) [Б.Я. Мазуровский, A.H. Сизёв.Электрогидравлический эффект в листовой штам-повке. Киев.: Наукова думка. (1983) 192 c.]
2.
M.E. Taranenko. Electrohydraulica forming: theory,equipment, technology: monograph in 2 p.-Kharkiv.: Nat.aerospace un. nam. N.E. Zhykovsky “Kharkiv aviationinst.”, (2011) 272 p. (In Russian) [М.Е. Тараненко.Электрогидравлическая штамповка: теория, обору-дование, техпроцессы: монография в 2 ч. - Харьков.:Нац. аэрокосм. ун-т им. Н.Е. Жуковского «Харьк.авиац. ин–т». (2011) 272 с.]
3.
B. Davis, J. Hryn. Innovative forming and fabricationtechnologies: new opportunities, final report, kingstonprocess metallurgy. Energy Systems Division. ArgonneNational Laboratory Inc. (2007) 9 p.
4.
2010 DOE Vehicle Technologies Program Review. –Project LM015 Report. R. Davies. Pacific NorthwestNational Laboratory. Richland. (2010) 1 p.
5.
M.V. Starkov, V.M. Kosenkov, D.R. Avramets. Mat. of Int.science-tech. conf. “Modernstate of using pulse powersources in industry”. Kharkiv. (2007) 12 p. (In Russian)[Н.  В. Старков, В.М.  Косенков, Д.Р.  Аврамец. Мат.Межд. науч.-тех. конф. «Современное состояние ис-пользования импульсных источников энергии в про-мышленности». (2007) 12 c.]
6.
M.V. Starkov, V.M. Kosenkov, A.A. Gyzev, D.R. Avramets.KSHP-OMD. 5, 16, (2008). (In Russian) [Н.В. Старков,В.М. Косенков, А.А. Гузев, Д.Р. Аврамец. КШП иОМД. 5, 16 (2008).]
7.
V.M. Kosenkov, D.R. Avramets. Surface Engineering andApplied Electrochemistry. 47 (5), 450 (2011).
8.
D.R. Avramets, V.M. Kosenkov. Geotechnical mechanic.Science book. Instn of geotechnical mechanic named byM.C. Polyakov at NAS of Ukraine. Dnipropetrovsk. 98,166, (2012). (In Russian) [Д.Р. Аврамец, В.М. Косенков.Геотехнічна механіка: Міжвід. зб. наук. праць. Ін-тгеотехнічної механіки ім. М.С. Полякова НАНУкраїни. Дніпропетровськ. 98, 166 (2012).]
9.
D.R. Avramets. Surface Engineering and AppliedElectrochemistry. 49 (6), 509 (2013).
10.
A.I. Vovchenko, V.M. Kosenkov, M.V. Starkov, I.S. Shvets.UA 75989 В21 D26/12, В21j5/00 15.06.2006. (In Russian)[О.І.  Вовченко, В.М.  Косенков, М.В.  Старков,І.С. Швець. UA 75989 В21 D26/12, В21j5/00 15.06.2006.]
11.
E.Y. Lezinskaya. Questions of nuclear science andtechnic. 1 (83), 108 (2003). (In Russian) [Е.Я. Лезинская.Вопросы атомной науки и техники. 1 (83), 108 (2003).]