此时间为从跳闸线圈受电到主触头电弧电流开断为止的总时间。
This is the total time from energizing the trip coil until the interruption of current on the primary arcing contacts.
电弧电流和涂层厚度之间有一定的交互作用。涂层孔隙率是影响涂层性能的主要原因。
It was shown that the main technological parameter affecting the performance of the coating was arc current, and then the thickness of the coating.
结果表明,影响涂层性能的工艺参数主要是电弧电流,其次是喷涂距离和雾化空气压力。
The results showed that the main parameters influencing the coating properties are the arc current, spraying distance and air pressure.
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