Mechanism of superplastic deformation of high-strength aluminum alloy 1933 with bimodal structure
Keywords:
superplasticity, bimodal structure, grain boundaries, fibrous structures, partial melting
Abstract
The characteristics of the initial structural state and phase composition of industrial alloy 1933 are determined. The specific proportion of low-angle boundaries and high-angle boundaries is determined. The mechanism of superplastic deformation of aluminum alloy 1933 with a bimodal structure is considered. In the investigation of the deformation relief the fibrous structures are found, indirectly confirming the presence of a liquid phase during the mechanical tests. The effect of the inclusions of liquid phase, localized at the grain boundaries, on the implementation of deformation and accommodative mechanisms developing during their superplastic flow is analyzed.
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References
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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.
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V.I. Elagin. V.V. Zakharov, M.M. Drits. Struktura i svoystva splavov sistemy Al-Zn-Mg. M.: Metallurgiya (1982), 224s.
D.E. Pedun, V.P. Poyda, T.F. Sukhova, A.P. Samsonik, V.V. Litvinenko, E.L. Spiridonov. Visnyk KhNU, seriia «Fizyka». V.16, №1019, 63 (2012).
D.E. Pedun, V.P. Poyda, V.V. Bryukhovetskiy, A.V. Poyda, A.P. Kryshtal’, T.F. Sukhova, A.L. Samsonik, V.V. Litvinenko, E.K. Spiridonov.
Metallofizika i noveyshie tekhnologii, V.34, №10, 1397 (2012).
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).
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).
T.G. Karnavskaya, E.V. Avtokratova, A.M. Bragov, M.V. Markushev, O.Sh. Sitdikov, V.N. Perevezentsev, M.Yu. Shcherban’. Pis’ma v ZhTF. V.38, V.13. 48 (2012).
O.E. Mukhametdinova, E.V. Avtokratova, O.Sh. Sitdikov, M.V. Markushev Vestnik Tomskogo GU. V.18, I.4. 972 (2013).
R.O. Kaybyshev, F.F. Musin. O «subsolidusnoy» sverkhplastichnosti. DAN, V.373, №2, 185 (2000).
M.Yu. Gryaznov, V.N. Chuvil’deev, V.E. Kuzin, M.M. Myshlyaev, V.I. Kopylov. Fizika tverdogo tela. Vestnik Nizhegorodskogo universiteta im. N.I. Lobachevskogo. №6 (1). 49 (2011).
Higashi K., Nieh T.G., Mabuchi M., Wadsworth J. Scripta Met. et Mater., V.32, N7. 1079 (1995).
R.I. Kuznetsova. FMM, V.45, I.3, 641. (1978).
R.I. Kuznetsova, V.V. Bryukhovetskiy, V.P. Poyda, T.F. Sukhova. Metallofizika i noveyshie tekhnologii. V.17, №8, 64 (1995).
W.J.D. Shaw., Materials Letters, 4, 1 (1985).
Published
2015-07-01
How to Cite
Poyda, A. V., Zavdoveev, A. V., Poyda, V. P., Bryukhovetskiy, V. V., Milaya, D. E., & Sukhov, R. V. (2015). Mechanism of superplastic deformation of high-strength aluminum alloy 1933 with bimodal structure. Journal of V. N. Karazin Kharkiv National University. Series Physics, 1158(22), 23-30. Retrieved from https://periodicals.karazin.ua/physics/article/view/7795
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