在更高的温度下闭合毛孔的特性符合锂电池关闭的要求,可停止现行流量,从而减低燃烧和爆炸的风险。
Closure of pores at elevated temperatures meets the demand for the shut down property in Lithium-Ion batteries, stops current flow, thereby reducing the risk of ignition and explosion.
气泡生长闭合运动的实验结果与理论基本上是符合的。
The experimental results for growth-collapse motion of a single cavitation bubble fairly agreed with theory.
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