样品在不同电流密度下进行了处理。
The samples were annealed under different electrical current density.
电流密度对铸层表面形态有较大的影响。
在中等电流密度下,隧道穿透过程是重要的。
Tunneling process is important in the low to moderate current density range.
提出了存在着电流密度与进料量的最佳组合。
The optimum combination between electric current density and input quantity is put forward.
操作电流密度过高。
超电压在某种程度上随电流密度成反比地变化。
The overvoltage varies inversely with the current density to some extent.
较高的峰值电流密度导致氧化膜的外边缘破裂;
Higher peak current densities resulted in the cracking of the outside edge of the pores.
降低电流密度。
操作电流密度太低,导致低电流区,镀层无法析出。
Operating current density is too low, leading to low current area, coating can't exhalation.
依液体温度选择电流密度,冬季用下限,夏季用上限。
In accordance with the liquid temperature selection in winter, current density, summer with the lower limit.
对比分析了电流密度、添加剂对工具电极损耗的影响。
Analyzing the effects of current density and additives on tool-electrode wear.
导电性物质的修饰以提高其在大电流密度下的比容量。
Modification with conductive materials to increase specific capacity at high current density.
但不足之处是发射电流密度太小和有较大的栅极电流。
But it provides too small emission current density and gives a large gate current.
阳极电流效率随交流电流密度的逐步增大而明显下降。
The current efficiency of the anode significantly dropped with the increasing ac density.
任何电镀都必须有一个能产生正常镀层的电流密度范围。
Any plating must have a can produce normal coating the current density range.
研究了沉积电流密度和低温热处理对硅酸钇涂层的影响。
The influence of deposition current and heat treatment on the yttrium silicates coatings were particularly investigated.
研究了电流密度与沉积速度、晶粒尺寸及镀层硬度的关系。
The relationships of current density with deposition rate, crystal size and hardness of deposit were studied.
超导体的转变温度和临界电流密度是两个经常要测量的参数。
A superconductor's transition temperature and critical current density are two commonly measured parameters.
考察了脉冲峰值电流密度对纳米晶镍镀层织构和硬度的影响。
The effects of pulse peak current density on the texture and hardness of electrodeposited Ni were investigated.
探讨了电流密度、电解时间和搅拌速度等因素对此法的影响。
The influencing factor such as current density, electrolysis times, and agitation speed are investigated.
介质充气后氧的极限扩散电流密度增大,对材料的侵蚀性增强。
The aggressiveness ofaerated solution accreted by increasing the limit diffusion current density of oxygen.
并对不同电极、温度和电流密度对反应电流效率影响进行了研究。
This paper discusses the influence of current efficiency in various electrodes, temperature and current density.
随着电流密度的增加﹐阴极极化作用随着增加﹐镀层晶粒越来越细。
Along with the increase of the current density, cathode polarization effect, coating grain with increasing more and fine.
当电流密度过低时﹐阴极极化作用较小﹐镀层桔晶粗大﹐甚至没有镀层。
When the current density is too low, the cathode polarization effect, smaller coating, not even orange crystal bulky coating.
继而从发电机理论得到了电离层电位及层电流密度在北半球的分布和变化。
Furthermore the distribution and variation of the electrostatic potential and layer ionospheric current density at the northern hemisphere are calculated by the dynamo theory.
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。
The influence of anode current density, polishing temperature, polishing time and stirring modes on polishing quality was discussed.
提出了将媒质中由饱和引起的体电流密度化为等效面电流密度的计算方法。
Besides the authors advance a new calculation method that volume current density caused by saturation, medium is turned into equivalent surface current density.
随电流密度增加,氢损伤尺寸增大,但当电流密度较大时,这种增大不明显。
The damage size increases with increase of charging current density, but not so apparent at higher current density.
随电流密度增加,氢损伤尺寸增大,但当电流密度较大时,这种增大不明显。
The damage size increases with increase of charging current density, but not so apparent at higher current density.
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