| 1 - 1 |
Proceedings of the International Conference on Lead-Acid Batteries (LABAT '99) - Sofia, Bulgaria, 7-10 June 1999 -Preface
Pavlov D |
| 2 - 2 |
Proclamation of the Gaston Plante Medal Committee
[Anonymous] |
| 3 - 3 |
The Gaston Plante medal presentation address
Yakimoff N |
| 4 - 5 |
Dr. Norman Bagshaw - 1999 Gaston Plante medallist |
| 7 - 7 |
The 1999 Plante Medal acceptance speech
Bagshaw NE |
| 8 - 8 |
The 1999 Plante Medal acceptance speech
Devitt J |
| 9 - 14 |
The Gaston Plante Medal Address - Metallic and alloy structures in battery grids
Bagshaw NE |
| 15 - 16 |
The Gaston Plante Medal Address
Devitt J |
| 17 - 21 |
ALABC - new directions
Cole JF, Moseley PT |
| 22 - 28 |
In situ analysis of electrochemical reactions at a lead surface in sulfuric acid solution
Yamaguchi Y, Shiota M, Nakayama Y, Hirai N, Hara S |
| 29 - 37 |
Dissolution and precipitation reactions of lead sulfate in positive and negative electrodes in lead acid battery
Takehara Z |
| 38 - 43 |
The electrochemical behavior of PbSO4 with different structures on Pb
Guo YL, Niu L, Zhang SY, Chen SH |
| 44 - 48 |
Electrochemical characteristics of Pb-Sb alloys in sulfuric acid solutions
Hirasawa T, Sasaki K, Taguchi M, Kaneko H |
| 49 - 55 |
Electrochemical behavior of lead in sulfuric acid solutions
Czerwinski A, Zelazowska M, Grden M, Kuc K, Milewski JD, Nowacki A, Wojcik G, Kopczyk M |
| 56 - 58 |
Thermal degradation of alpha- and beta-PbO2 and its relationship to capacity loss
Fitas R, Zerroual L, Chelali N, Djellouli B |
| 59 - 62 |
Influence of Ag as alloy additive on the oxygen evolution reaction on Pb/PbO2 electrode
Monahov B, Pavlov D, Petrov D |
| 63 - 71 |
Theoretical calculations for using positive electrode compression to increase lead-acid battery life
Edwards DB, Schmitz C |
| 72 - 78 |
A method for measurement and interpretation of impedance spectra for industrial batteries
Karden E, Buller S, De Doncker RW |
| 79 - 91 |
A new generation of highly efficient expander products and correlation between their chemical composition and the performance of the lead-acid battery
Pavlov D, Myrvold BO, Rogachev T, Matrakova M |
| 92 - 101 |
Multivariate analysis for characterization of expanders
Myrvold BO, Pavlov D |
| 102 - 109 |
Electrochemical techniques for the characterisation of expander materials
Francia C, Maja M, Spinelli P, Saez F, Martinez B, Marin D |
| 110 - 116 |
The effect of expanders on lead-sulphate formation and reduction
Francia C, Maja M, Spinelli P |
| 117 - 130 |
Investigation on soaking and formation of lead/acid battery plates with different mass structure
Dreier I, Saez F, Scharf P, Wagner R |
| 131 - 136 |
A practical method to follow the evolution of electrochemically active areas during plate formation processes in lead acid batteries
D'Alkaine CV, de Andrade J, Impinnisi PR |
| 137 - 144 |
Improving the performance of a high power, lead-acid battery with paste additives
Dayton TC, Edwards DB |
| 145 - 148 |
Influence of grid design on current distribution over the electrode surface in a lead-acid cell
Calabek M, Micka K, Baca P, Krivak P |
| 149 - 156 |
Effect of electrochemically oxidized carbon colloid on lead acid batteries
Kimura T, Ishiguro A, Andou Y, Fujita K |
| 157 - 163 |
Grid technology and silver additive influence on VRLA-AGM batteries performances for electric vehicle application
Torcheux L, Villaron A, Bellmunt M, Lailler P |
| 164 - 171 |
Influence of temperature, current and number of cycles on the efficiency of the closed oxygen cycle in VRLA batteries
Pavlov D, Ruevski S, Nidenov V, Sheytanov G |
| 172 - 177 |
Development of VRLA batteries for high rate discharge applications
Chen JS |
| 178 - 180 |
Desulphurization of the damped lead battery paste with potassium carbonate
Yanakieva VP, Haralampiev GA, Lyakov NK |
