Features are established for the effect of grinding parameters and saturated aqueous boric acid solution on charge grain size composition and physicomechanical properties of hot-deformed powder materials (HDPM) based on a mixture of aluminum powder and mechanochemically activated turning powder. Microanalysis and element mapping of areas are performed for HDPM with the optimum set of mechanical properties, and HDPM structure with improved mechanical properties is also demonstrated.
Similar content being viewed by others
References
Yu. G. Rorofeev, E. N. Bezborodov, and S. N. Sergeenko, “Features of compact material formation from mechanically-activated aluminum alloy D-16 turnings,” MiTOM, No. 2, 31–33 (2003).
http://plasma-welding.ru/technology/primalspl.html, acces. 09.20.2014.
www.1bm.ru/techdocs/alloys/materials/60/info/1295/, acces. 09.20.2014.
C. Hu and T. N. Baker, “In situ microfusion process in Al–Fe alloys,” Mater. Sci. Eng. A, 156, No. 2, 167–174 (1992).
V. O. Abramov, S. B. Maslenkov, V. L. Slivko, et al., “Features of rapidly crystallized aluminum, alloyed with transition metals,” MiTOM, No. 4, 37–40 (1990).
V. K. Portnoy, V. N. Kuznetsov, A. M. Blinov, et al., “Formation of nickel aluminides by mechanical alloying and thermodynamics of interaction,” J. Alloys and Comp., 336, No. 1/2, 196–201 (2002).
L. Yu. Kotieva, N. M. Ievleva, and S. D. Shlyapin, “Technology for preparing composite material of the Al–Al2O3–B2O3 system,” Tsvet. Met., No. 5, 25–28 (1983).
L. Yu. Kotieva, N. L. Galetova, and V. V. Pavlova, “Introduction to aluminum powder strengthening phases,” Tsvet. Met., No. 4, 35–37 (186).
Yu. G. Dorofeev, S. N. Sergeenko, and E. N. Bezborodov, “Hot deformed powder material on mechanochemically activated aluminum powder,” Proc. Int. Sci.-Tech. Conf. Powder and Composite Materials, Structure, Properties, Preparation Technology, Novocherkassk, Sept. 16–20, 2002, Izd. YuRGTU, Novocherkassk (2002).
Yu. G. Dorofeev, S. N. Sergeenko, and E. N. Bezborodov, Patent 2234393 RF, IPC7 B 22 F 3/14, “Method for preparing hot-deformed powder materials,” subm. 12.15.2002, publ. 08.20.2004.
M. A. Fedoseeva and S. N. Sergeenko, “Structure and properties of Al–FeTi powder material based on chemically-activated D16 turnings,” Metallurg, No. 6, 84–88 (2015).
Yu. G. Dorofeev, S. N. Sergeenko, and R. V. Kolomiets, “Kinetics of mechanochemical activation of an Ni–Fe powder charge,” Fiz. Khim. Obrab. Mater., No. 1, 77–82 (2007).
Author information
Authors and Affiliations
Corresponding authors
Additional information
Translated from Metallurg, No. 12, pp. 75–78, December, 2015.
Rights and permissions
About this article
Cite this article
Slabkii, D.V., Sergeenko, S.N. Hot-Deformed Al–Ni Powder Materials Based on Alloy D-16 Mechanically-Activated Turnings. Metallurgist 59, 1228–1233 (2016). https://doi.org/10.1007/s11015-016-0242-6
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11015-016-0242-6