由分析静电放电火花点火过程的物理特征和静电放电火花的点燃特性。
The physical characteristics of the ignition processing caused by electrostatic discharge (ESD) sparks and the igniting characteristics of the ESD sparks are investigated.
简要分析了现有静电放电模型的局限性和直接测试静电放电火花隙电阻值存在的问题。
The limitations of the electrostatic discharge models and the problems that arise in direct testing of the resistance of the spark discharge channel are briefly analyzed.
对聚烯烃粉体生产工艺过程中典型和频发性的静电放电火花的点燃危险性进行了定量评价。
In the production line of polythene and polypropylene powder, the ignition risk caused by typical and frequently occurred ESD sparks has been quantitatively assessed.
不同类型的静电放电火花点燃可燃物过程的能量耦合效率不同,可高达10 0 % ,也可能< 1%。
The efficency of the energy coupling have been changed between less than 1% and high to 100% according to the different types of ESD spark ignition.
通过研究典型静电放电火花的实际点燃能力,对实际生产工艺工程中的静电放电火花的点燃危险性进行定量评价。
Through studying the real ignition ability of typical electrostatic discharge (ESD) sparks, the ignition risk caused by ESD sparks in practical production engineering was quantitatively assessed.
问题通常不在于物体上的静电本身,而是在于物体放电时所产生的电火花。
The problem generally is not the static charge itself on the object, but rather the spark generated when the object discharges.
静电具有高电压、静电感应及尖端放电的特点,放电产生的静电火花容易导致爆炸和火灾事故。
With high voltage, electrostatic electrostatic induction and point discharge, discharge the characteristics of the spark generated is easy to cause the explosion and fire accident.
静电具有高电压、静电感应及尖端放电的特点,放电产生的静电火花容易导致爆炸和火灾事故。
With high voltage, electrostatic electrostatic induction and point discharge, discharge the characteristics of the spark generated is easy to cause the explosion and fire accident.
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