Study of Corrosion-Electrochemical Behavior of Aluminum-Beryllium Alloys Alloyed with Yttrium, Lanthanum and Cerium

A.S. Safarov; T.D. Dzhuraev; M.I. Halimova; Z.M. Karieva

doi:10.4028/www.scientific.net/KEM.510-511.233

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HomeKey Engineering MaterialsKey Engineering Materials Vols. 510-511Study of Corrosion-Electrochemical Behavior of...

Study of Corrosion-Electrochemical Behavior of Aluminum-Beryllium Alloys Alloyed with Yttrium, Lanthanum and Cerium

Abstract:

Advantage of alloys on the basis of system Al-Be,Al-Be-REM is raised technological, physical, chemical and corrosion resistance properties in damp and excessively aggressive atmospheres [. According to literary reviews, this alloys basically are foundry-hypoeuthectic and hypereuthectic, and the technology of moulding of these alloys very difficult and demands application of operations modifying. Difficultly deleted impurity basically (Fe), specifically influence phase structure, naturally influencing on physical and chemical properties industrial silumines with the maintenance not less than 0.4-0.5 %. Many additives as Fe, Mg, Ti, Be, especially in hypoeuthectic silumines increasing strength and foundry properties, can reduce them corrosion-resistance. In connection with the above-stated is of interest researches of influence of impurity such elements as, Be and REM on corrosion resistance industrial alumines. Studies corrosion-resistance spent samples potentiostatic a method on device " Potentiostate P-50" with a registering recorder in the environment of the muriatic solutions in a mode "Potential". he analysis of experimental data have shown, that addition Be, positively modifying structure of foundry alloys, reduces influences containing in it Fe, increases strength and corrosion resistance, which calculations testify experimental data of electrochemical indicators [2,3].

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Periodical:

Key Engineering Materials (Volumes 510-511)

Pages:

233-240

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.510-511.233

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Online since:

May 2012

Authors:

A.S. Safarov, T.D. Dzhuraev, M.I. Halimova, Z.M. Karieva

Keywords:

Al-Be, Al-Be-REM, Corrosion Resistance, Corrosion-Electrochemical Behavior, Foundry Properties, Hypereuthectic, Hypoeuthectic, Potenthiodinamic Curves

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References

[1] The diagram of a condition of double metal systems. Т. 3, book. Under edit. the academician N.P. Ljakisheva's Russian Academy of Science. - M.: Mechanical engineering, 2001, p.992.

Google Scholar

[2] Dzhuraev T. D. Vahobov A.V. / Inform. Tajik`s Sovet Union Republic Academy of Science, 1986. Vol. 29, No. 1, pp.27-30.

Google Scholar

[3] N. Sinjavsky, P. ValkovV. I, Aluminium wrought alloys, corrosion and protection, -М: Metallurgy, (1986).

Google Scholar

[4] Dobatkin A.P., Altman V.P. Fusing and moulding of aluminum' alloys. M.: Metallurgy. 1983, p.350.

Google Scholar

[5] Karieva Z.M., Sidiqov S. A. Physical-chemical properties of aluminum alloy AD-31 and its application, Proceedings of the 7th International Symposium on Advanced Materials, 2001, Islamabad, pp.117-118.

Google Scholar

[6] Aluminium alloys. /Properties, treatment, application. /Edit. Herwig Nielson, Waldemar Hufagel, Georg Ganoulis. /Transl. -M.: Metallurgy. 1979, p.676.

Google Scholar

[7] A. Sally Al-Si –silumins. -M.: Metallurgy, 1983, p.200.

Google Scholar

[8] Bobilev A.V. Mechanical and technological properties of metals. hand-book. - М.: Metallurgy, 1980 p.83.

Google Scholar

[9] Savitsky E.N. Terekhova V.S. Redkozemelnye metals and alloys-М.: Nauka, 1971, p.125.

Google Scholar

[10] Avdeev B.A. technics of definition of mechanical properties metalls. -М.: Metallurgy, 1976, pp.346-352.

Google Scholar

[11] Lepinskih B.M., Kiselyov V.M. « About oxidation of liquid metals and alloys oxygen from a gas phase / Proceedings. AS the USSR. Metals, 1974, 5, pp.51-54.

Google Scholar

[12] Kubashevskii O. Gopkin B. Okislenie of metals and alloys. -М.: Metallurgy, 1965, p.356.

Google Scholar