电池(电)
材料科学
导电体
计算机科学
电压
安全监测
压力传感器
肿胀 的
工作(物理)
汽车工程
传感器融合
状态监测
可扩展性
持续监测
触变性
数据采集
机械工程
航程(航空)
作者
Rong Sun,Peng Xiao,Lei Sun,Dongliang Guo,Ye Wang,Jun Wu
标识
DOI:10.1002/admt.202501566
摘要
Abstract The swelling behavior of lithium‐ion batteries provides critical insights into their operational status, offering significant potential for safety early‐warning systems. However, conventional flexible force sensors face substantial challenges in battery expansion monitoring due to stringent requirements regarding installation dimensions, measurement range, and long‐term durability. This study presents an innovative thin‐film force sensor based on fumed silica‐modified conductive ink, where the silica‐induced hydrogen bonding network effectively suppresses ink leveling during fabrication, thereby preserving controlled surface micro‐roughness in the printed functional layer. The optimized sensor demonstrates exceptional performance characteristics, including an extended pressure range (0–1200 kPa), rapid response time (<50 ms), and excellent cycling stability (>10 000 cycles). Integrated into a 4 × 4 sensing array, the system successfully monitors dynamic swelling force variations during the lithium iron phosphate (LFP) battery charge–discharge cycles. Furthermore, by combining voltage and swelling force data through an advanced data fusion algorithm, highly accurate state‐of‐charge estimation is achieved with 98.13% accuracy at 1% resolution, representing a significant improvement over conventional monitoring methods. This work establishes a new paradigm for battery safety management through mechanical signature analysis, providing both fundamental insights and practical solutions for next‐generation battery monitoring systems.
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