1 |
D. Pavlov, M. Dimitrov, T. Rogachev, and L. Bogdanova, Influence of Paste
Composition and Curing Program and Used for the Production of Positive Plates
with PbCaSn Grids on the Performance of Lead Acid Batteries, J Power Sources,
114, 137 (2003)
DOI
ScienceOn
|
2 |
S. Laruelle, Grugeon-Dewaele, L. Torcheux and A. Delahaye-Vidal, The
curing reaction study of the active material in the lead-acid battery, J
Power Sources, 77, 83 (1999)
DOI
ScienceOn
|
3 |
D. P. Boden, Improved Oxides for Production of Leadl Acid Battery Plates, J.
Power Sources, 73, 56 (1998)
|
4 |
D. Pavlov, G. Petkova, M. Dimitrov, M. Shiomi, and M. Tsubota, Influence of Fast Charge on the Life Cycle of Positive Lead-Acid Battery Plates, J Power
Sources, 87, 39 (2000)
DOI
ScienceOn
|
5 |
J. Wang, S. Zhong, H. K. Liu ,and S. X. Dou, Influence of charge mode on the
capacity and cycle life of lead-acid battery negative plates, J Power Sources,
113, 355 (2003)
DOI
ScienceOn
|
6 |
C. Hongyu, W. YongZhong, L. Yourong, and D. Shuzhen, Study and application of several-step tank fonnation of leadlacid battery plates, J. Power Sources, 59, 59 (1996)
DOI
ScienceOn
|
7 |
J. E. Dix, A Comparison of Barton-pot and Ball-nUll Processes for Making Leady
Oxide, J. Power Sources, 19, 157 (1987)
DOI
ScienceOn
|
8 |
S. E. Afifi, A. E. Saba and A. Y. Shenouda, Performance characteristics of
lead oxides in pasted lead/acid battery electrodes, J Power Sources, 46, 285
(1993)
DOI
ScienceOn
|
9 |
B. K. Ku and S. W. Jeong, Effects of Curing Conditions on the Chemical Compositions of Positive Plate for Lead Acid Battery Plates, J Kor. Oil Chem Soc., 23(4), 347 (2006)
|
10 |
B, K. Ku and S. W. Jeong, A Study on the Curing of Positive Plate and Grid to Improve the Capacity of the Lead-Acid Batteries, J Kor. Oil Chem Soc., 25(1), 41 (2008)
|