Journal of Power Sources, 33 (1991) 342 Author Index of Volume 33 Achtermann, M. D., 87 Hilger, J. P., 27 Pavlov, D., 221 Ho, M. S., 187 Peters, K., 247 Bagshaw, N. E., 3 Hoover, J. H., 257 Pierson, J. R., 309 Beil, F., 319 Polivianny, I. R., 279 Bernardi, W., 331 ie AMD Pésch, G., 127 Boden, D. P., 257 Prengaman, R. D., 13 Johnson, R. T., 309 Bolotovsky, V. I., 51 Bouirden, L., 27 Richter, G., 285 Khegay, L. D., 279 Rusin, A. I., 279 Kiessling, R., 275 Calasanzio, D., 59 Kosai, M., 105 Sheng Fenchi, 21 Clerici, G., 67 Kseniak, E. M., 77 Spindler, W. C., 145 Cook, G. M., 145 Stevenson, J. M., 135 Lata, V. A., 279 Su Wenduan, 21 Doéring, H., 213 Dyson, J. I., 135 McClelland, D. H., 59 Tsubota, M., 105 Meissner, E., 231 Eisenhut, N. R., 77 Valeriote, E. M. L., 187 Nakao, S., 117 Voss, E., 231 Furukawa, H., 117 Nakayama, Y., 117 Nann, E., 93 Wen Haiquan, 21 Garche, J., 213 Nelson, R. F., 165 Wiesener, K., 213 Greenlee, M. E., 87 Nourjigitov, S. T., 279 Wilson, F., 135 Wisdom, D. M., 165 Heim, A., 187 Ochiai, T., 291 Hertz, J., 27 Osumi, S., 105 Zhou Shaomin, 21 Elsevier Sequoia/Printed in The Netherlands Journal of Power Sources, 33 (1991) 343-346 Subject Index of Volume 33 Alloy(s) lead/acid behaviour of Pb—Ca alloys in positive behaviour of Pb—Ca alloys in posi- plates of flooded and recombinant tive plates of flooded and recom- lead/acid batteries, 59 binant lead/acid batteries, 59 demands on automotive battery per- characteristics of valve-regulated formance, what is best alloy?, 285 lead/acid batteries for automotive electrochemical properties of Pb—Sr al- applications under deep-discharge loys for lead/acid batteries, 21 duty, 105 grid alloys for maintenance-free deep- electrochemical properties of Pb—Sr cycling batteries, 3 alloys for, 21 improved grid alloys for deep-cycling improving performance of deep- Pb-—Ca batteries, 13 cycling, valve-regulated lead/acid Pb—-Ca alloys in production of lead/acid batteries, 93 batteries, 51 low-maintenance, valve-regulated, Automotive applications lead/acid batteries in utility appli- characteristics of valve-regulated lead/ cations, 145 acid batteries for automotive appli- Pb—Ca alloys in production of lead/ cations under deep-discharge duty, acid batteries, 51 105 sealed lead/acid battery for motorcy- Automotive batteries cle use, 117 automotive batteries; from single com- Battery applications ponent to entire part of electrical pure Pb and Sn effect in deep-cycling system in vehicle, 331 lead/acid battery applications, automotive battery energy density; past, 165 present and future, 247 Battery designer failure mechanisms of lead/acid auto- battery designer’s challenge; satisfying motive batteries in service in U.S.A., ever-increasing demands of vehicle 257 electrical systems, 309 Automotive battery performance Battery electrical needs demands on automotive battery per- battery electrical needs for next gener- formance, what is best alloy?, 285 ation of cars, 291 Automotive battery plates Battery performance thirteen years’ experience with ex- demands on automotive battery per- panded Pb—Ca-—Sn grids for automo- formance, what is best alloy?, tive battery plates, 67 285 Battery plate(s) Battery(ies) effect of dopants (Group Va) on per- application of wrought Pb—Ca batteries formance of positive lead/acid bat- in Europe, 87 tery plate, 221 automotive batteries; from single com- thirteen years’ experience with ex- ponent to entire part of electrical panded Pb—Ca-—Sn grids for automo- system in vehicle, 331 tive battery plates, 67 formation of wrought Pb—Ca batteries variables affecting deep-cycling charac- for consistency, 77 teristics of expanded-grid lead/acid grid alloys for maintenance-free deep- battery plates, 187 cycling batteries, 3 Battery production improved grid alloys for deep-cycling processing of wastes from lead/acid Pb-—Ca batteries, 13 battery production, 279 Elsevier Sequoia/Printed in The Netherlands 344 Calcium Dopants application of wrought Pb—Ca batteries effect of dopants (Group Va) on per- in Europe, 87 formance of positive lead/acid bat- discontinuous and continuous harden- tery plate, 221 ing processes in Ca and Ca—Sn micro-alloyed Pb; influence of ‘sec- Electrical needs ondary-lead’ impurities, 27 battery electrical needs for next gener- formation of wrought Pb—Ca batteries ation of cars, 291 for consistency, 77 Electrical system(s) Pb—Ca alloys in production of lead/acid automotive batteries; from single com- batteries, 51 ponent to entire part of electrical thirteen years’ experience with ex- system in vehicle, 331 panded Pb—Ca—Sn grids for automo- battery designer’s challenge satisfying tive battery plates, 67 ever-increasing demands of vehicle Capacity decay electrical systems, 309 reversible capacity decay of positive Electrochemical properties electrodes in lead/acid cells, 231 of Pb—Sr alloys for lead/acid batteries, Car(s) 21 battery electrical needs for next gener- Electrochemistry ation of cars, 291 influence of phosphoric acid on both electronics in cars; consequences for electrochemistry and operating be- energy-supply system, 319 haviour of lead/acid system, 213 Cell(s) Electrodes maintenance-free motive-power cells us- reversible capacity decay in positive ing gas-recombination technology, electrodes in lead/acid cells, 135 231 reversible capacity decay of positive Electrolyte electrodes in lead/acid cells, 231 high gelled-electrolyte quality with Cycle life polyacrylamide polymer; limitation high gelled-electrolyte quality with of cycle-life through water loss, polyacrylamide polymer; limitation 127 of cycle-life through water loss, Electronics 127 electronics in cars; consequences for energy-supply system, 319 Deep-cycling batteries Energy density grid alloys for maintenance-free deep- automotive battery energy density; past, cycling batteries, 3 present and future, 247 improved grid alloys for deep-cycling Energy-supply system Pb-—Ca batteries, 13 electronics in cars; consequences for improving performance of deep-cycling, energy-supply system, 319 valve-regulated lead/acid batteries, Expanded grid 93 variables affecting deep-cycling charac- Deep-cycling battery applications teristics of expanded-grid lead/acid pure Pb and Sn effect in deep-cycling battery plates, 187 lead/acid battery applications, 165 Failure mechanisms Deep-cycling characteristics failure mechanisms of lead/acid auto- variables affecting deep-cycling charac- motive batteries in service in U.S.A., teristics of expanded-grid lead/acid 257 battery plates, 187 Deep-discharge duty characteristics of valve-regulated lead/ Gas-recombination technology acid batteries for automotive appli- maintenance-free motive-power cells us- cations under deep-discharge duty, ing gas-recombination technology, 105 135 345 Gelled-electrolyte sealed lead/acid battery for motorcycle high gelled-electrolyte quality with use, 117 polyacrylamide polymer; limitation Lead/acid battery plate(s) of cycle-life through water loss, 127 effect of dopants (Group Va) on per- Grid alloys formance of positive lead/acid bat- grid alloys for maintenance-free deep- tery plate, 221 cycling batteries, 3 variables affecting deep-cycling charac- improved grid alloys for deep-cycling teristics of expanded-grid lead/acid Pb-—Ca batteries, 13 battery plates, 187 Grids Lead/acid battery production thirteen years’ experience with ex- processing of wastes from lead/acid panded Pb—Ca—Sn grids for automo- battery production, 279 tive battery plates, 67 Lead/acid cells reversible capacity decay in positive Hardening processes electrodes in lead/acid cells, 231 discontinuous and continuous harden- Lead/acid system ing processes in Ca and Ca—Sn influence of phosphoric acid on both micro-alloyed Pb; influence of ‘sec- electrochemistry and operating be- ondary-lead’ impurities, 27 haviour of lead/acid system, 213 Lead—calcium alloys Lead behaviour of Pb—Ca alloys in positive discontinuous and continuous harden- plates of flooded and recombinant ing processes in Ca and Ca—Sn lead/acid batteries, 59 micro-alloyed Pb; influence of ‘sec- Pb—Ca alloys in production of lead/acid ondary-lead’ impurities, 27 batteries, 51 pure Pb and Sn effect in deep-cycling Lead—calcium batteries lead/acid battery applications, application of wrought Pb—Ca batteries 165 in Europe, 87 thirteen years’ experience with ex- formation of wrought Pb—Ca batteries panded Pb—Ca—Sn grids for automo- for consistency, 77 tive battery plates, 67 improved grid alloys for deep-cycling Lead/acid battery(ies) Pb—Ca batteries, 13 behaviour of Pb—Ca alloys in positive Lead-—strontium alloys plates of flooded and recombinant electrochemical properties of Pb—Sr al- lead/acid batteries, 59 loys for lead/acid batteries, 21 characteristics of valve-regulated lead/ Low-maintenance batteries acid batteries for automotive appli- low-maintenance, valve-regulated, lead/ cations under deep-discharge duty, acid batteries in utility applications, 105 145 electrochemical properties of Pb—Sr al- loys for lead/acid batteries, 21 Maintenance-free batteries failure mechanisms of lead/acid auto- grid alloys for maintenance-free deep- motive batteries in service in U.S.A., cycling batteries, 3 257 Maintenance-free cells improving performance of deep-cycling, valve-regulated lead/acid batteries, maintenance-free motive power cells 93 using gas-recombination technology, low-maintenance, valve-regulated, lead/ 135 acid batteries in utility applications, Motive-power cells 145 maintenance-free motive-power cells us- Pb—Ca alloys in production of lead/acid ing gas-recombination technology, batteries, 51 135 pure Pb and Sn effect in deep-cycling Motorcycle(s) lead/acid battery applications, sealed lead/acid battery for motorcycle 165 use, 117 346 Operating behaviour thirteen years’ experience with ex- influence of phosphoric acid on both panded Pb—Ca-—Sn grids for automo- electrochemistry and operating be- tive battery plates, 67 haviour of lead/acid system, 213 Utility applications low-maintenance, valve-regulated, lead/ acid batteries in utility applications, Phosphoric acid 145 influence of phosphoric acid on both electrochemistry and operating be- Valve-regulated batteries haviour of lead/acid system, 213 characteristics of valve-regulated lead/ Polyacrylamide polymer acid batteries for automotive appli- high gelled-electrolyte quality with cations under deep-discharge duty, polyacrylamide polymer; limitation 105 of cycle-life through water loss, improving performance of deep-cycling, 127 valve-regulated, lead/acid batteries, Positive plates 93 behaviour of Pb—Ca alloys in positive low-maintenance, valve-regulated, lead/ plates of flooded and recombinant acid batteries in utility applications, lead/acid batteries, 59 145 Vehicle(s) automotive batteries; from single com- Strontium ponent to entire part of electrical electrochemical properties of Pb—Sr al- system in vehicle, 331 loys for lead/acid batteries, 21 battery designer’s challenge satisfying ever-increasing demands of vehicle electrical systems, 309 Temperature-controlled formation, 275 Tin Wastes discontinuous and continuous harden- processing of wastes from lead/acid ing processes in Ca and Ca—Sn battery production, 279 micro-alloyed Pb; influence of ‘sec- Water loss ondary-lead’ impurities, 27 high gelled-electrolyte quality with pure Pb and Sn effect in deep-cycling polyacrylamide polymer; limitation lead/acid battery applications, 165 of cycle-life through water loss, 127