Журналы →  Tsvetnye Metally →  2012 →  №4 →  Назад

METAL PROCESSING
Название The effect of small addition on softening with heating of the cold rolled sheets of the low-alloyed aluminum alloys
Автор Ryazantseva M. A., Solonin A. N., Portnoy V. K.
Информация об авторе

National University of Science and Technology "MISIS" (MISiS)

M. A. Ryazantseva, Post-Graduate Student, e-mail: riazantseva@misis.ru

A. N. Solonin, Head of a Chair

V. K. Portnoy, Professor of a Chair of Metallography of Non-ferrous Metals

Реферат

The search for new heat-resistant alloys with the high electrical conductivity for wires of electric power lines is very actual task. The Al – Mg – Si-alloys, used for preparing the current-carrying lines, possess the necessary electrical conductivity but suffer from softening at elevated temperatures. Our study is devoted to development and optimization of the aluminum alloys with high resistance of mechanical properties to heating combined with high electrical conductivity for electric power lines. The purpose of the work is the study of the influence of microalloying on electrical conductivity and stability of the dislocation structure (reduction of the softening) of the cold-deformed alloys with the heating, including in the extreme conditions. Present article is focused on the study of the kinetics of the softening with heating of the aluminum binary dilute alloys and on the influence of the small concentrations of the alloying elements on the electrical conductivity. In the work the analysis of the influence of small additions Zn, Mg, Ag, Cu, Ti, Fe, Cr, Mn, Si and Zr is carried out. It is shown that the reason of Zn-containing alloy softening at heating is polygonization. Magnesium provides the best resistance to softening among other soluble elements. Among additions forming intermetallic phases the most effective is iron if concentration of alloying element is 0.05% or zirconium at higher concentrations. In the range of studied concentrations all soluble additions decrease aluminum electroconductivity less than on 5%. The additions forming intermetallic phases decrease electroconductivity up to 50%.

Ключевые слова Aluminum alloys, recristallization, poligonization, electroconductivity, low-alloyed, dislocation structure, modeling
Библиографический список

1. Sedat Karabay. Modification of AA-6201 alloy for manufacturing of high conductivity and extra high conductivity wires with property of high tensile stress after artificial aging heat treatment for all-aluminium alloy conductors. Mater. & Design. 2006. No. 27. pp. 821–832.

2. Sedat Karabay. Influence of AlB2 compound on elimination of incoherent precipitation in artificial aging of wires drawn from redraw rod extruded from billets cast of alloy AA-6101 by vertical direct chill casting. Mater. & Design. 2008. No. 29. pp. 1364–1375.

3. Kun Yu, Wenxian Li, Songrui Li, Jun Zhao. Mechanical properties and microstructure of aluminum alloy 2618 with Al3(Sc, Zr) phases. Mater. Sci. and Engineering A. 2004. Vol. 368, Is. 1/2. pp. 88–93.

4. Christian B. Fuller, Albert R. Krause, David C. Dunand, David N. Seidman. Microstructure and mechanical properties of a 5754 aluminum alloy modified by Sc and Zr additions. Mater. Sci. and Engineering A. Vol. 338, Is. 1/2. pp. 8–16.

5. Bi-Yu Tang, Dong-Lin Li, Ping Chen, Jian-Xiong Yi, Li Wen, Li-Ming Peng, Wen-Jiang Ding. The thermal properties of Al–Mg–TM (TM = Sc, Zr): Ab initio study. Solid State Sciences. 2010. Vol. 12. pp. 845–850.

6. Osintsev O. E., Fedorov V. N. Med i mednye splavy. Otechestvennye i zarubezhnye marki : spravochnik (Copper and copper alloys. Russian and foreign grades : reference book). Moscow : Mashinostroenie, 2004. 337 p.

7. Gorelik S. S. Rekristallizatsiya metallov i splavov (Recrystallizing of metals and alloys). Moscow : Metallurgiya, 1978. 568 p.

8. Fiziko-khimicheskie svoystva elementov : spravochnik (Physical and chemical properties of elements : reference book). Under the editorship of G. V. Samsonov. Kiev : Naukova dumka, 1965.

9. Alyuminiy. Svoystva i fizicheskoe metallovedenie : spravochnik (Aluminium. Properties and physical metallography : reference book). Under the editorship of G. Hatch. Moscow : Metallurgiya, 1989. 422 p.

10. К. Gardner. Recristallization during deformation. Metal Sci. 1979. No. 3/4. pp. 216–222.

Language of full-text русский
Полный текст статьи Получить
Назад