Thermal analysis is the analysis of a change in a property of a material, which is related to the temperature difference. Polymer samples are typically in solid form and undergo various thermal transitions upon heating, including melting, phase transition, sublimation, and decomposition. The purpose of this study is to demonstrate how thermal techniques such as DSC and TGA may be used to evaluate polymer thermal stability through the examination of polymer characteristics such as glass transition temperatures, melting points, and mass changes. Different polymers have been investigated and used in lead-acid batteries for various applications based on their mechanical and thermal characteristics. Few lead-acid battery-related polymers like Polypropylene (PP), Polyethylene (PE) Separator, Polyethylene Terephthalate (PET), Polyvinyl Chloride (PVC) and Acrylonitrile butadiene styrene (ABS) were studied and explained.
The present study mainly focuses on the plate preparation and the usage of the synthesized conductive additive (Barium MetaPlumbate BaPbO3). Formation efficiency and cycle life of the plates with different additives were evaluated. The formation efficiency of the pasted positive plates of the lead-acid battery was greatly enhanced by BaPbO3 addition during the paste preparation. The effects of loading level of the additives on formation efficiency and plate performance were examined in detail by SEM, XRD, and Gravimetric, Electro Chemical Analyzer techniques.
Thermal analysis is the analysis of a change in a property of a material, which is related to the temperature difference. Polymer samples are typically in solid form and undergo various thermal transitions upon heating, including melting, phase transition, sublimation, and decomposition. The purpose of this study is to demonstrate how thermal techniques such as DSC and TGA may be used to evaluate polymer thermal stability through the examination of polymer characteristics such as glass transition temperatures, melting points, and mass changes. Different polymers have been investigated and used in lead-acid batteries for various applications based on their mechanical and thermal characteristics. Few lead-acid battery-related polymers like Polypropylene (PP), Polyethylene (PE) Separator, Polyethylene Terephthalate (PET), Polyvinyl Chloride (PVC) and Acrylonitrile butadiene styrene (ABS) were studied and explained.
The basic objective of the present work is to arrive at the optimal design for wooden skids used for the “storage and transportation” of the batteries to the ware houses and customers. The wooden skid was designed taking account of load conditions that it experiences during transportation and storage. In this context, the most vital parameters like nature of load that influences the performance of the wooden skid was considered. With the help of simple design approach, the reliability of the design was studied and the importance of influencing parameters was discussed.
The basic objective of the present work is to arrive at the optimal design for wooden skids used for the “storage and transportation” of the batteries to the ware houses and customers. The wooden skid was designed taking account of load conditions that it experiences during transportation and storage. In this context, the most vital parameters like nature of load that influences the performance of the wooden skid was considered. With the help of simple design approach, the reliability of the design was studied and the importance of influencing parameters was discussed.
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