Superplastic deformation of high strength aluminum alloy 1933 after hot working
Keywords:
superplasticity, hot working, grain boundaries, structural anisotropy
Abstract
The structural state of the specimens of industrial alloy 1933, passed previous hot working processing, is investigated. It is found, that the microstructure has considerable anisotropy. The grains, elongated in the rolling direction, dominate in it. The specific proportion of low-angle grain boundaries and high-angle grain boundaries in specimens after hot working is determined. The optimal conditions of superplastic deformation in specimens past previous hot working are determined.
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References
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V.P. Poyda, D.E. Pedun, V.V. Bryukhovetskiy, A.V. Poyda, R.V. Sukhov, A.L. Samsonik, V.V. Litvinenko. FMM, V.114, №9, 779 (2013).
D.E. Pedun, V.P. Poyda, V.V. Bryukhovetskiy, A.V. Poyda, R.V. Sukhov, A.P. Kryshtal’. Visnyk KhNU, seriia «Fizyka», V.18, №1075, 55 (2013).
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V.M Beleckii, G.A. Krivov. Alyuminievye splavy (sostav, svoistva, tehnologiya, primenenie) spravochnik / Pod obshei redakciei akademika RAN I.N. Fridlyandera. K.: Kominteh. 2005, 315p.
V.I. Elagin. V.V. Zakharov, M.M. Drits. Struktura i svoystva splavov sistemy Al-Zn-Mg. M.: Metallurgiya (1982), 224s.
I.I. Novikov, V.K. Portnoy. Sverkhplastichnost metallov i splavov s ultramelkim zernom. M.: Metallurgiya, (1981), 168s.
O.A. Kaybyshev. Sverkhplastichnost promyshlennykh splavov. M.: Metallurgiya, (1984), 264s.
Superplastic Forming of Structural Alloys, Ed. by N.E. Paton and C.H. Hamilton. The Metallurgical Society of AIME, San Diego, California, (1982), 312p.
V.N. Shcherba. Pressovanie alyuminievykh splavov. M.: Intermetinzhiniring, (2001), 768s.
M. Mabuchi, H.G. Jeong, K. Hiraga, K. Higashi. Interface Sci. V.4, №3 – 4, 357 (1996).
I.I. Novikov, V.K. Portnoy, V.S. Levchenko, A.O. Nikiforov. Mater. Sci. Forum. Vol.243 – 245, 463 (1997).
V.P. Poyda, R.I. Kuznetsova, T.F. Sukhova, N.K. Tsenev and others. Metallofizika, V.12, №1, 44 (1990).
S.A. Saltykov. Stereometricheskaya metallografiya. M.: Metallurgiya, (1976), 272 s.
V.N. Varyukhin, E.G. Pashinskaya, A.V. Zavdoveev, V.V. Burkhovetskiy. Vozmozhnosti metoda difraktsii obratnorasseyannykh elektronov dlya analiza struktury deformirovannykh materialov. K.: Naukova dumka, (2014) 101s.
C.L. Chen, M.J. Tan. Mater. Sci. and Eng. А., 298, 235 (2001).
W.D. Cao, X.P. Lu, H. Conrad. Acta. Mater., 44, №2, 697 (1996).
Higashi K., Nieh T.G., Mabuchi M., Wadsworth J. Scripta Met. et Mater., V.32, N7. 1079 (1995).
W.J.D. Shaw., Materials Letters, 4, 1 (1985).
V.P. Poyda, V.V. Bryukhovetskiy, R.I. Kuznetsova, A.V. Poyda // Visnyk SumDU, V76, №4, 5 (2005).
V.P. Poyda, V.V. Bryukhovetskiy, A.V. Poyda, R.I. Kuznetsova, V.F. Klepikov, D.L. Voronov // FMM, V.103, №4, 433 (2017)
Chang Jung-Kuei. Effects of atmosphere in filament formation on a superplastically deformed aluminum–magnesium alloy / Jung-Kuei Chang, Eric M. Taleff, Paul E. Krajewskib and James R. Ciulika // Scripta Materialia 60. –2009. P.459–462.
A.M. Korolkov Liteynyie svoystva metallov i splavov. M.: Nauka, (1967). 199s.
Published
2017-01-23
How to Cite
Poyda, A. V., Zavdoveev, A. V., Dmitrenko, V. Y., Poyda, V. P., Bryukhovetskiy, V. V., Milaya, D. E., Sukhov, R. V., & MinyenkovО. О. (2017). Superplastic deformation of high strength aluminum alloy 1933 after hot working. Journal of V. N. Karazin Kharkiv National University. Series Physics, (24), 24-29. Retrieved from https://periodicals.karazin.ua/physics/article/view/9201
Section
Articles
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