Research Journal of Applied Sciences
1197 - 1201
D'Alkaine, C.V., P. Mengarda and P.R. Impinnisi, 2009. Discharge mechanisms and electrochemical impedance spectroscopy measurements of single negative and positive lead-acid battery plates. J. Power Sources, 191: 28-35.CrossRef | Direct Link |
Feliu, S., L. Galan and J.A. Gonzalez, 1972. Effect of grid cast structure on the anodic corrosion of lead. Mater. Corrosion, 23: 554-561.CrossRef | Direct Link |
GOST., 1999. Stationary lead-acid batteries. General requirements and methods of test Part 2. Valve regulated types. GOST R IEC 60896-2-99. State Standard of Russia.
Kamenev, Y., G. Shtompel, E. Ostapenko and V. Leonov, 2014. Influence of the active mass particle suspension in electrolyte upon corrosion of negative electrode of a lead-acid battery. J. Power Sources, 257: 181-185.CrossRef | Direct Link |
Kamenev, Y.B., 2005. Assessment of prospectivity of the lead acid accumulators. Collection of the Scientific Papers About Lead Acid Accumulators. HIMIZDAT, St. Petersburg, pp: 31-62.
Konovalov, M.B., V.N. Demin and O.N. Demin, 1994. Process for the manufacture of lead-acid battery electrode and lead-acid storage battery. Patent US 5328586 A. http://www.google.com/patents/US5328586.
Misra, S.S., 2012. Electrochemical principles as applied to grid corrosion in lead-acid batteries. ECS Trans., 41: 117-130.CrossRef |
Nakhaie, D., P.H. Benhangi, A. Alfantazi and A. Davoodi, 2014. The effect of grid configurations on potential and current density distributions in positive plate of lead-acid battery via numerical modeling. Electrochimica Acta, 115: 189-196.CrossRef | Direct Link |
Razina, N.F., 1982. Oxide Electrodes in Aqueous Solutions. Nauka, Alma-Ata, Pages: 160, (In Russian).
Wagramyan, A.T. and Z.A. Solovyeva, 1960. Methods of Metal Deposition Research. Izdatelstvo AN SSSR, Мoscow, pp: 275-309, (In Russian).