Issues »  Volume 36, Issue 2

Physical and Chemical Properties of Liquid-Quenched Battery Alloy of Pb—Ca—Sn System

V. A. Dzenzerskiy$^{1}$, V. F. Bashev$^{2}$, V. A. Polonskiy$^{2}$, S. V. Tarasov$^{3}$, Yu. I. Kazacha$^{1}$, V. A. Ivanov$^{3}$, A. A. Kostina$^{2}$

$^{1}$‘WESTA’ International Scientific Industrial Corporation, 5 Pisarzhevskoho Str., 49005, Dnipropetrovsk, Ukraine
$^{2}$Oles Honchar Dnipropetrovsk National University, 13 Naukova Str., 49050 Dnipropetrovsk, Ukraine
$^{3}$Institute of Transport Systems and Technologies, NAS of Ukraine, 5 Pisarzhevskoho Str., 49005, Dnipropetrovsk, Ukraine

Received: 02.10.2013. Download: PDF

Investigation of physical and chemical properties of the Pb—Ca—Sn system alloy samples for positive grid of lead—acid battery, including microadditives of barium, shows the advantages of a method for fabrication of strips by quenching from the liquid state as compared to the operative industrial rolling technology.

Key words: microstructure, physico-chemical properties, artificial aging, quenching from the liquid state, lead battery alloy.

URL: http://mfint.imp.kiev.ua/en/abstract/v36/i02/0259.html

DOI: https://doi.org/10.15407/mfint.36.02.0259

PACS: 62.20.M-, 72.15.Eb, 81.40.Cd, 81.40.Gh, 81.40.Lm, 81.40.Np, 82.47.Cb

Citation: V. A. Dzenzerskiy, V. F. Bashev, V. A. Polonskiy, S. V. Tarasov, Yu. I. Kazacha, V. A. Ivanov, and A. A. Kostina, Physical and Chemical Properties of Liquid-Quenched Battery Alloy of Pb—Ca—Sn System, Metallofiz. Noveishie Tekhnol., 36, No. 2: 259—273 (2014) (in Russian)

REFERENCES
  1. D. A. J. Rand, P. T. Moseley, and J. Garche, Valve-Regulated Lead–Acid Batteries (Elsevier Science & Technology: 2004), p. 575.
  2. V. F. Bashev, N. E. Zhitnik, V. A. Ivanov, D. A. Rybalka, and Yu. A. Tkachenko, Metally, No. 1: 100 (2011) (in Russian).
  3. R. D. Prengaman, Proc. Fall Meeting Electrochem Soc. (1976, Las Vegas, NV, USA), p. 207.
  4. L. Albert, A. Goguelin, and E. Jullian, J. Power Sources, 78, Iss. 1–2: 23 (1999). Crossref
  5. J. Furukawa, Y. Nehyo, and S. Shiga, J. Power Sources, 133, Iss. 1: 25 (2004). Crossref
  6. E. Jullian, L. Albert, and J. L. Callerie, J. Power Sources, 116, Iss. 1: 185 (2003). Crossref
  7. O. Kh. Fatkullin, G. B. Stroganov, A. A. Il'in, A. V. Shul'ga, and V. N. Martynov, Metallovedenie i Tekhnologiya Bystrookhlazhdyonnykh Splavov (Moscow: MAI: 2007) (in Russian).
  8. I. S. Miroshnichenko, Zakalka iz Zhidkogo Sostoyaniya (Moscow: Metallur-giya: 1982) (in Russian).
  9. S. S. Gorelik, Yu. A. Skakov, and L. N. Rastorguev, Rentgenograficheskiy i Elektronno-Opticheskiy Analiz (Moscow: MISiS: 2002) (in Russian).
  10. V. F. Bashev, V. A. Ivanov, B. N. Litvin, G. A. Sergeev, A. V. Burdimova, and V. N. Gudzenko, XIII International Conference on Physics and Technology of Thin Films and Nanosystems (May 16–21, 2011, Ivano-Frankivsk) (Ivano-Frankivsk: Vasyl Stefanyk PreCarpathian National University: 2011), p. 197.
  11. F. Todt, Korroziya i Zashchita ot Korrozii (Leningrad: Khimiya: 1967), p. 24 (in Russian).

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