High flame retardant composite phase change materials with triphenyl phosphate for thermal safety system of power battery module

阻燃剂 磷酸盐 复合数 磷酸三苯酯 材料科学 电池(电) 汽车工程 相(物质) 复合材料 法律工程学 功率(物理) 工程类 化学 物理 有机化学 量子力学
作者
Wensheng Yang,Canbing Li,Xinxi Li,Xinxi Li,Hewu Wang,Jian Deng,Tieqiang Fu,Yunjun Luo,Yan Wang,Kunlong Xue,Guoqing Zhang,Dequan Zhou,Yaoxiang Du,Xuxiong Li,Xuxiong Li
出处
期刊:eTransportation [Elsevier BV]
卷期号:20: 100325-100325 被引量:82
标识
DOI:10.1016/j.etran.2024.100325
摘要

The thermal safety of battery pack has attracted much attention accompany with the growth in electric vehicles (EVs) in recent years. Although various battery thermal management systems (BTMS) are investigated by many research, the thermal runaway propagation (TRP) of battery packs under extremely abused conditions is just at the level of structural design and theoretical model. How to explore an innovative technology to improve the integrated thermal safety including the BTMS and TRP is still a great challenge. In this study, a multifunctional flame-retardant paraffin (PA)/styrene-butadiene-styrene (SBS)/expanded graphite (EG)/methylphenyl silicone resin (MPS)/triphenyl phosphate (TPP) composite phase change material (PSEMT) has successfully prepared. Besides, it has applied in 26650 ternary power battery modules. When the proportion of MPS and TPP is 1:2, the experimental results reveal that PSEMT possesses high thermal stability, and excellent flame-retardant properties owing to synergistic flame-retardant effect with phosphorus and silicon. Further, the cylindrical 26650 battery module with PSEMT exhibits optimum thermal management performance. Even at 2C discharge rate after ten cycles, the maximum operating temperature of battery module can still be maintained below 50 °C, and the maximum temperature difference is controlled within 4.6 °C. Additionally, it displays an excellent thermal runaway suppression through triggering by multiple heat sources. What's more, the battery with PSEMT can suppress the peak temperature and delay the occurrence time of thermal runaway. Therefore, it can be induced that the battery module with PSEMT can effectively avoid heat accumulation and significantly reduce its thermal safety risk. This study offers a new solution with promising prospects from the perspectives of energy storage and EVs, for balancing the temperature inconsistencies in batteries and suppressing thermal runaway in the battery packs.
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