Relevant bibliographies by topics / Panasonic NCR18650B

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Academic literature on the topic 'Panasonic NCR18650B'

Author: Grafiati
Published: 5 June 2025
Last updated: 16 July 2025

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Journal articles on the topic "Panasonic NCR18650B"

1

Lazarenko, Oleksandr, Taras Berezhanskyi, Vitalii Pospolitak, and Oleg Pazen. "Experimental evaluation of the influence of excessive electric current on the fire hazard of lithium-ion power cell." Eastern-European Journal of Enterprise Technologies 4, no. 10 (118) (2022): 67–75. http://dx.doi.org/10.15587/1729-4061.2022.263001.

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Panasonic NCR18650B (LiNi0.8Co0.15Al0.05O2) lithium-ion power cell (LIPC) and its performance after exposure to excess direct current are considered in this paper. The basic fire hazard indicators (element ignition temperature, flame temperature, element heating time, etc.) were experimentally established and mathematically confirmed for the examined LIPC. According to the results of experimental studies, the time of occurrence of an irreversible thermochemical reaction in a lithium-ion power cell was determined depending on the different DC current strengths. Additionally, the critical temper
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2

Lazarenko, Oleksandr, Oleg Pazen, Yarema Velykyi, Ruslan Parkhomenko, and Yurii Stepaniak. "Determination of Thermal Physical Characteristics of the Panasonic NCR18650b Lithium-Ion Power Supply Element." Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences. 78, no. 5-6 (2024): 372–79. https://doi.org/10.2478/prolas-2024-0047.

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Abstract The purpose of the work was to determine the thermophysical characteristics of Panasonic NCR18650B (LiNi0.8Co0.15Al0.05O2) batteries under the condition of an external heating source. Obtaining the appropriate thermophysical characteristics of lithium-ion battery (LIB) cells can be confirmed by experimental studies and mathematical calculations. Obtaining relevant results in the future makes it possible to carry out a professional assessment of the heating temperature of such LIB, the conditions of their combustion, and the spread of fire in general. According to the results of experi
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3

Oleksandr, Lazarenko, Berezhanskyi Taras, Pospolitak Vitalii, and Pazen Oleg. "Experimental evaluation of the influence of excessive electric current on the fire hazard of lithium-ion power cell." Eastern-European Journal of Enterprise Technologies 4, no. 10 (118) (2022): 67–75. https://doi.org/10.15587/1729-4061.2022.263001.

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Panasonic NCR18650B (LiNi<sub>0.8</sub>Co<sub>0.15</sub>Al<sub>0.05</sub>O<sub>2</sub>) lithium-ion power cell (LIPC) and its performance after exposure to excess direct current are considered in this paper. The basic fire hazard indicators (element ignition temperature, flame temperature, element heating time, etc.) were experimentally established and mathematically confirmed for the examined LIPC. According to the results of experimental studies, the time of occurrence of an irreversible thermochemical reaction in a lithium-ion power cell was determined depending on the different DC current
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4

Lazarenko, Oleksandr, Taras Hembara, Vitalii Pospolitak, and Dmytro Voytovych. "Assessing the effect of mechanical deformation of the panasonic NCR18650B lithium-ion power cell housing on its fire safety." Eastern-European Journal of Enterprise Technologies 2, no. 7 (122) (2023): 69–78. http://dx.doi.org/10.15587/1729-4061.2023.276780.

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This paper considers the deformation properties of the body of the lithium-ion power cell (LIPC) Panasonic NCR18650B (LiNi0.8Co0.15Al0.05O2) exposed to the action of static load at various techniques of fixing the cell. Determining the properties of LIPCs under appropriate conditions makes it possible to fill the gap in existing studies, which will further ensure the safety of their use. Based on the results of experimental studies, the LIPC rigidity and temperature indicators were determined in accordance with the applied load. The most dangerous variant, from the point of view of fire danger
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5

Ahmad, Athar, Mario Iamarino, and Antonio D’Angola. "A Nernst-Based Approach for Modeling of Lithium-Ion Batteries with Non-Flat Voltage Characteristics." Energies 17, no. 16 (2024): 3914. http://dx.doi.org/10.3390/en17163914.

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This paper presents an easy-to-implement model to predict the voltage in a class of Li-ion batteries characterized by non-flat, gradually decreasing voltage versus capacity. The main application is for the accurate estimation of the battery state of the charge, as in the energy management systems of battery packs used in stationary and mobility applications. The model includes a limited number of parameters and is based on a simple equivalent circuit representation where an open circuit voltage source is connected in series with an equivalent resistance. The non-linear open circuit voltage is
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6

Oleksandr, Lazarenko, Hembara Taras, Pospolitak Vitalii, and Voytovych Dmytro. "Assessing the effect of mechanical deformation of the panasonic NCR18650B lithium-ion power cell housing on its fire safety." Eastern-European Journal of Enterprise Technologies 2, no. 7(122) (2023): 69–78. https://doi.org/10.15587/1729-4061.2023.276780.

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Abstract:
This paper considers the deformation properties of the body of the lithium-ion power cell (LIPC) Panasonic NCR18650B (LiNi<sub>0.8</sub>Co<sub>0.15</sub>Al<sub>0.05</sub>O<sub>2</sub>) exposed to the action of static load at various techniques of fixing the cell. Determining the properties of LIPCs under appropriate conditions makes it possible to fill the gap in existing studies, which will further ensure the safety of their use. Based on the results of experimental studies, the LIPC rigidity and temperature indicators were determined in accordance with the applied load. The most dangerous va
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7

Bruj, Olivia, and Adrian Calborean. "EIS Ageing Prediction of Lithium-Ion Batteries Depending on Charge Rates." Batteries 10, no. 7 (2024): 247. http://dx.doi.org/10.3390/batteries10070247.

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In the automotive industry, ageing mechanisms and diagnosis of Li-ion batteries depending on charge rate are of tremendous importance. With this in mind, we have investigated the lifetime degradation of lithium-ion battery cells at three distinct charging rates using Electrochemical Impedance Spectroscopy (EIS). Impedance spectra of high-energy Panasonic NCR18650B batteries have been analysed in light of two distinct approaches, namely the time-dependent evaluation of the Constant Phase Element (CPE), and the single parameter investigation of resonance frequency of the circuit. SOH percentages
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8

Lazarenko, O., та V. Pospolitak. "СПОСОБИ ВИПРОБУВАННЯ ЛІТІЙ-ІОННИХ ЕЛЕМЕНТІВ ЖИВЛЕННЯ НА ПРЕДМЕТ ПОЖЕЖНОЇ НЕБЕЗПЕКИ". Fire Safety 39 (29 грудня 2021): 49–55. http://dx.doi.org/10.32447/20786662.39.2021.06.

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Вступ. Безперечно, безумовно, літій-іонний елемент живлення (ЛІЕЖ) є основною складовою транспортних засобів на альтернативних джерелах живлення. Але неодноразові дослідження ЛІЕЖ показали їхню надзвичайну пожежну небезпеку. Наступні дослідження показали, що для того, щоб уникнути використання неякісних ЛІЕЖ, необхідно впроваджувати нормативно-правову базу яка б обумовлювала порядок та методику їх тестування на предмет пожежної небезпеки. На жаль в Україні відсутні подібні стандарти та загалом є прогалина в напрямку досліджень пожежної небезпеки ЛІЕЖМета та задачі дослідження. Зважаючи на пере
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9

Bruj, Olivia, and Adrian Calborean. "Lifecycle Evaluation of Lithium-Ion Batteries Under Fast Charging and Discharging Conditions." Batteries 11, no. 2 (2025): 65. https://doi.org/10.3390/batteries11020065.

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By employing electrochemical impedance spectroscopy, we performed an impedance analysis of three commercial Li-ion Panasonic NCR18650B cells in order to investigate the direct effects of their internal impedance on the operating voltage, rate capability, and efficiency and their practical capacity. We aimed to assess their performance, safety, and longevity when distinct fast charge/discharge rates were applied. By maintaining a constant fast discharge rate of 2C, we monitored the degradation speed and the influence of the C-rates on the LIBs by applying distinct charge rates, namely, 1C, 1.5C
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10

Lazarenko, O. V., O. Yu Pazen, R. Yu Sukach, and V. I. Pospolitak. "Experimental evaluation of fire hazard of lithium-ion battery during its mechanical damage." Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, no. 5 (October 30, 2022): 68–73. http://dx.doi.org/10.33271/nvngu/2022-5/068.

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Purpose. To experimentally determine the combustion temperature of a lithium-ion battery (LIB) due to mechanical damage to its case by a sharp object. At the same time, to determine the cooling-down time of the lithium-ion battery after combustion and the further mathematical description of this process. Methodology. To achieve the set goal, a laboratory bench with the appropriate measuring equipment was prepared. For mathematical modelling of the cooling process, experimental values and methods for studying heat transfer processes in solid multilayer cylindrical structures were applied. Findi
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