| 1 - 1 |
Special issue - Selected papers presented at the Tenth Asian Battery Conference - Bangkok, Thailand, 3-5 September 2003 - Preface
Eckfeld S |
| 3 - 7 |
Green lead - oxymoron or Sustainable development for the lead-acid battery industry?
Roche M, Toyne P |
| 8 - 13 |
Regional issues in the global lead market
Keen A |
| 14 - 24 |
Technical and economic advantages of making lead-acid battery grids by continuous electroforming
Warlimont H, Hofmann T |
| 25 - 31 |
Development of new positive-grid alloy and its application to long-life batteries for automotive industry
Furukawa J, Nehyo Y, Shiga S |
| 32 - 38 |
In situ electrochemical atomic force microscopy of lead electrodes in sulfuric acid solution with or without lignin during anodic oxidation and cathodic reduction
Hirai N, Tabayashi D, Shiota M, Tanaka T |
| 39 - 46 |
Manufacturing improvements in the processing of lead-acid battery plates and reduction in plate dusting with an active-material additive
Ferreira A, Jordan J, Wertz J, Zguris G |
| 47 - 51 |
Comparison of methods for adding expander to lead-acid battery plates-advantages and disadvantages
Boden DP |
| 52 - 58 |
Effect of barium sulfate and strontium sulfate on charging and discharging of the negative electrode in a lead-acid battery
Vermesan H, Hirai N, Shiota M, Tanaka T |
| 59 - 66 |
A review of future directions in automotive battery separators
Bohnstedt W |
| 67 - 78 |
'Density/solidity' of recombinant battery separator material-its -influence on both separator and battery performance in valve-regulated lead-acid systems
Zguris GC |
| 79 - 86 |
Thermal runaway in valve-regulated lead-acid cells and the effect of separator structure
Culpin B |
| 87 - 93 |
Use of synthetic fibre reinforcement for improving the performance of AGM separators for VRLA batteries
Clement N |
| 94 - 103 |
Developments in absorptive glass mat separators for cycling applications and 36 V lead-acid batteries
Toniazzo V, Lambert U |
| 104 - 109 |
Changes in the demands on automotive batteries require changes in battery design
Moseley PT, Rand DAJ |
| 110 - 115 |
Valve-regulated lead-acid batteries for stop-and-go applications
May GJ |
| 116 - 125 |
Development of a lead-acid battery for a hybrid electric vehicle
Cooper A |
| 126 - 134 |
Failure mode of valve-regulated lead-acid batteries under high-rate partial-state-of-charge operation
Lam LT, Haigh NP, Phyland CG, Urban AJ |
| 135 - 140 |
Failure mechanism of valve-regulated lead-acid batteries under high-power cycling
Yan JH, Li WS, Zhan QY |
| 141 - 146 |
Advanced management strategies for remote-area power-supply systems
Newnham RH, Baldsing WGA |
