The results showed that the thin plates produced by slurry method could improve the utility of active material and the ability of high-rate discharge performance.
实验结果证明:拉浆法制造的薄极板可以提高活性物质的利用率,改善了电池的大电流放电能力。
Custom built 5.6kwh lithium-ion polymer for highest capacity per weight (specific energy density) high discharge rate capable of full power takeoff and climb.
定制的5.6千瓦时为每重量的最高容量(比能量密度的锂离子聚合物)高放电率能够充分权力起飞和爬升。
However, when the battery was discharged at high rate, the voltage peak would be in the curve of discharge voltage and the discharge capacity would also be increased.
然而在高倍率放电的条件下,电池的放电电压曲线会出现电压峰,同时电池的放电容量也有所增大。
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