脉冲放电
网络释义:pulse discharge; pulsed discharge; impulsive discharge
网络释义
1.pulse discharge pulse decay 脉冲衰减 pulse discharge 脉冲放电 pulse duration 脉冲持续时间 ...
2.pulsed discharge ... 脉冲电晕等离子体 pulse corona plasma 脉冲放电 pulsed discharge 脉冲幅度分析器 pulse height analyzer ...
3.impulsive discharge impulsion 脉冲/冲击 impulsive discharge 脉冲放电 impulsive disturbance 脉动骚扰 ...
4.inpulsive discharge ... inorganic compound 无机化合物 inpulsive discharge 脉冲放电 input 输入 ...
5.Electrohydraulic discharge
6.pulse corona discharge ... ) pulse discharging 脉冲放电 ) pulse corona discharge 脉冲放电 ) pulse current discharge 脉冲放电 ...
7.pulse discharging ... ) pulsed discharge 脉冲放电 ) pulse discharging 脉冲放电 ) pulse corona discharge 脉冲放电 ...
8.pulse current discharge ... ) pulsed discharge 脉冲放电 ) pulse current discharge 脉冲放电 ) pulse corona discharge 脉冲放电 ...
造句带翻译释义:,pulse discharge,pulsed discharge,impulsive discharge1.Furthermore, controlled tailoring of surfaces withreactive functional groups is now possible by means of pulsed discharges.此外,控制withreactive缝纫表面的官能团现在是可能的通过脉冲放电现象。
2.It is concise for the liquor pulse discharge facility of its electrodes rotation with ultrasound device to be introduced by this paper.介绍了一种带超声波的,在液体中工作的电极旋转式脉冲放电设备。
3.Temperature field at the time of pulse current discharge in metal structure with elliptical embedding crack was theoretically analyzed.对带有椭圆埋藏裂纹金属构件在脉冲放电瞬间的温度场进行了理论分析。
4.The "heat accumulating effect" of multi-pulse electric discharging is an important factor that influences ESD process.提出了多脉冲放电的“热积累效应”是影响放电沉积的重要因素。
5.Because of omitting motor converting energy, it simplifies the structure of this water pump and makes this water pump easy to make.由于省去了其它水泵用来进行能量转换的电动机,使得大电流脉冲放电水泵的结构极为简单,制造也容易。
6.The constant impulse discharge will replicate the tool shape of the tool electrode on the workpiece and carry out the shaped machining.不断的脉冲放电,就可将工具电极的形状复制在工件上,实现成型加工。
7.Preliminary study of destruction of acetophenone in water by high voltage pulse discharges .高压脉冲放电降解水中苯乙酮的研究。
8.The results show that the energy of single pulse discharge is the main factor affecting micro-EDM surface roughness.结果表明,单脉冲放电能量是影响微细电火花加工表面粗糙度的主要因素。
9.Also, our study shows that the glow discharge in atmosphere would be realized by use of nanosecond pulse discharge technology.研究同时表明,采用纳秒脉冲放电技术,可能是实现大气中辉光放电的另一途径。
10.The volume of the single pulse discharge crater increases as the pulse energy strengthens.气中单脉冲放电凹坑都随着放电能量的增大而增大。