1·The peak anode current is a massive 250 Amps.
阳极电流的峰值是一个巨大的250安培。
2·The automatic machine of anode current collector and bottom plate spot welding was designed and prepared successfully.
报导了碱锰电池负极集流体自动焊接机的研制。
3·Test result shows that the circuit decreases the effect of temperature to anode current, improves the stability of neutron yield.
测试结果表明,该电路减小了温度对阳极电流的影响,改善了中子产额的稳定性。
4·The influence of anode current density, polishing temperature, polishing time and stirring modes on polishing quality was discussed.
探讨了阳极电流密度、抛光温度、抛光时间和搅拌方式对抛光质量的影响。
5·The picoammeter reads the current at the last dynode, which is equal to the anode current minus the current flowing to the previous dynode.
皮安计在最后一个倍增管电极处读取电流,此电流等于阳极电流减去流过前一个倍增管电极的电流。
6·Silicon in an anode active substance layer provided in an anode current collector has an amorphous structure with a low degree of a local order.
设置在负极集电体上 的负极活性物质层中的硅具有局部有序性的程度低的非晶结构。
7·According to Fourier's law and Kirchhoff's law, a mathematical model of prebaked anode current and temperature fields of aluminum reduction cell was built.
根据傅里叶传热定律和基尔霍夫导电定律,建立了预焙阳极铝电解槽阳极传热、导电的数学模型。
8·To keep the anode current stable suitably, a temperature compensated circuit based on a thermal resistor to self-regulate the filament voltage has been designed.
为使阳极电流稳定在合适的区间内,设计了一种利用热敏电阻自动调节中子管灯丝电压的温度补偿电路。
9·The count rate at the extrapolation of bias to zero varies monotonously with the anode current of phototube and tends to the activity of source as the inverse anode current approaches zero.
甄别电压外推到零时的计数率随光电倍增管阳极电流而改变,当阳极电流的倒数趋于零时,计数率趋于被测源的活度。
10·The measured results indicated that the carbon consumption of a prebaked anode decreased slightly with increasing anode current density towards a value of about 110% of the theoretical consumption.
研究结果得出,预焙阳极的炭阳极消耗随阳极电流密度的增加而趋向于理论消耗110%左右。石墨阳极消耗随电流密度增加而略有提高,其范围在135 ~ 150%之间。