The possibility of application of a nonstandard deformation process by the method of hydroextrusion (HE) to commercial high-strength magnesium alloys MA14 and MA22 is studied and proved. It is shown that specific modes of HE deformation raise the level of the strength properties of the alloys by 25 – 50% as compared to the standard deformation process.
Similar content being viewed by others
Notes
The study of the phase compositions was performed by G. I. Morozova.
References
E. N. Kablov, Aerospace Materials Science in: All Materials. Encyclopedic Manual [in Russian], No. 3 (2008), pp. 2 – 14.
E. N. Kablov, “Innovative developments at FGUP “VIAM” GNTs RF on Implementation of the ‘Strategic Directions of Development of Materials and Treatment Processes until 2030’,” Aviats. Mater. Tekhnol., 1(34), 3 – 33 (2015).
I. S. Kornysheva, E. F. Volkova, E. S. Goncharenko, et al., “Prospects of application of magnesium and castable aluminum alloys,” Aviats. Mater. Tekhnol., No. S, 212 – 222 (2012).
A. Nicholas and S. Rol’nik, “Magnesium components in the aerospace industry,” Aerokosm. Kur’er, No. 1, 42 – 44 (2011).
V. V. Sadkov, Yu. L. Laponov, V. P. Ageev, and N. S. Korovina, “Prospects and conditions of application of magnesium alloys in aircrafts of the Tupolev Company,” in: Proc. “Mg Broad Horizons” Int. Conf., St. Petersburg, 6th – 8th June, 2007 [in Russian], St. Petersburg (2007), pp. 1 – 19.
E. F. Volkova, “Recent magnesium-base deformable alloys and composite materials,” Metalloved. Term. Obrab. Met., No. 1, 5 – 9 (2006).
E. I. Beresnev, K. I. Egerskii, and E. V. Trushin, The Physical Fundamentals and Practical Application of Hydroextrusion [in Russian], Nauka, Moscow (1981), 239 p.
E. N. Kablov, O. G. Ospennikova, and A. K. Vershkov, “Rare metals and rare-earth elements: materials for recent and future high technologies,” Trudy VIAM, No. 2, Paper 01 (2013) (viam-works.ru).
O. G. Ospennikova, M. V. Bubnov, and D. V. Kapitanenko, “Computer simulation of processes of pressure treatment of metals,” Aviats. Mater. Tekhnol., No. S, 141 – 147 (2012).
E. B. Chabina, A. A. Alekseev, E. V. Filonova, and E. A. Lukina, “Application of methods of analytical microscopy and x-ray diffraction analysis for studying the structure and phase condition of materials,” Trudy VIAM, No. 5, paper 06 (2013) (viam-works.ru).
E. F. Volkova, “Microstructural & mechanical characterization of magnesium alloy MA14 (ZK60A) under deformation & heat treatment,” in: Proc. 2014 Int. Conf. on High Performance and Optimum Design of Structures and Materials, Ed. by WIT Press (2014), pp. 17 – 25.
E. N. Kablov, “Materials for the “Buran” object: innovative solutions of formation of the sixth process order,” Aviats. Mater. Tekhnol., No. S-1, 3 – 9 (2013).
E. F. Volkova, V. V. Antipov, and G. I. Morozova, “Special features of formation of structure and phase composition of deformed semiproducts from commercial alloy MA14,” Aviats. Mater. Tekhnol., No. 3, 8 – 15 (2011).
E. F. Volkova, “Some regular features of formation of the phase composition of a magnesium alloy of the Mg – Zn – Zr – Y system,” Metalloved. Term. Obrab. Met., No. 1, 22 – 28 (2013).
E. F. Volkova, I. V. Iskhodzhanova, and L. V. Tarasenko, “Structural changes in magnesium alloy MA14 under the action of process factors,” Metalloved. Term. Obrab. Met., No. 12, 19 – 23 (2010).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 7, pp. 32 – 38, July, 2016.
Rights and permissions
About this article
Cite this article
Volkova, E.F. Effect of Uniform Compression Deformation on the Structure and Properties of High-Strength Magnesium Alloys. Met Sci Heat Treat 58, 411–416 (2016). https://doi.org/10.1007/s11041-016-0026-4
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11041-016-0026-4