Authors | V.А. Dzenzerskiy, S.V. Таrasov, D.O. Redchyts, V.А. Ivanov, O.V. Sukhova |
Affiliations |
Institute of Transport Systems and Technologies of National Academy of Sciences of Ukraine, 49005 Dnipro, Ukraine |
Е-mail | itst@westa-inter.com |
Issue | Volume 16, Year 2024, Number 1 |
Dates | Received 15 December 2023; revised manuscript received 20 February 2024; published online 28 February 2024 |
Citation | V.А. Dzenzerskiy, S.V. Таrasov, et al., J. Nano- Electron. Phys. 16 No 1, 01003 (2024) |
DOI | https://doi.org/10.21272/jnep.16(1).01003 |
PACS Number(s) | 61.82.Bg, 61.66.Dk, 62.20. – x, 62.20.Fe, 62.20.Mk, 64.70.Dv, 81.70.Bt, 81.40.Cd |
Keywords | Lead-acid batteries (4) , Environmental hazard, High-temperature grids, Melt spinning technology, Rapid cooling, Structural stability, Mechanical properties (6) . |
Annotation |
This work concerns innovative approach to prepare Pb–Sn–Ba grids for lead-acid batteries which provides their enhanced structural stability and mechanical properties allowing functionality and prolongation of service life at high temperatures. To have these properties in the Pb–Sn–Ba grids, two roll melt spinning technology is applied that provides a greater to extreme environments resistance to fatigue, higher mechanical properties, thermal (for high temperature exposure) stability. As a result, far less disposal and environmental hazard will be posed by longer-lived lead-acid batteries with the Pb–Sn–Ba grids prepared using melt spinning technology compared to those fabricated by conventional methods. |
List of References |