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Home > chinese-english > "electronic conductivity" in English

English translation for "electronic conductivity"

电子导电性
电子电导率


Related Translations:
dark conductivity:  暗导电率暗电导率无照导电性
gas conductivity:  气体导电能力气体电导率
high conductivity:  高导电率高电导性离导电率
latent conductivity:  电导潜影
conductivity water:  校准电导水。
type conductivity:  n型关导体电导率型电导率
optical conductivity:  光电导率
asymmetrical conductivity:  不对称导电性
conductivity signal:  电导率信号
low conductivity:  低传导性低导电率
Example Sentences:
1.However the bad high rate performance because of the low electronic conductivity should be improved
但是该材料导电率较低,在大电流充放电的条件下,放电性能有待改善。
2.The reversion and precipitation of the second phase which occurs during the course of aging result in electronic conductivity reversion of bar
时效处理对导条组织和性能的影响是因为时效过程中先后发生了回复、再结晶和第二相析出。
3.However , the material undergoes large departures from stoichiometry at elevated temperatures in a reducing atomsphere with accompanying electronic conductivity
但是,在高温还原气氛下,这种材料的化学计量比将发生较大偏移,并伴随有电子电导。
4.Polymers have had an edge over kodak - type small - molecule devices in power efficiencies because the greater electronic conductivity of the polymer layers allows lower operating voltages
与柯达型的小分子装置相比,聚合物在用电效率上见长,由于聚合物层的导电率较高,所以操作电压可以较低。
5.The research results show that the radius of the gas channels and the electronic conductivity in carbon phase of the reaction layer , and the porosity of the gas diffusion layer are relatively less important
研究结果表明气体扩散层孔隙率,反应层气体通道的半径以及碳相中电子传导率等参数的变化对电极性能影响不大。
6.According to these results , the electronic conductivity , seebeck coefficient , thermal conductivity and figure of merit of materials are computed . the results are consistent with experimental measurements
根据所求出的有效质量、载流子浓度估算了上述三个模型的电导率、热导率、 seebeck系数和材料的热电品质因子,计算结果与实验测量值的变化趋势一致。
7.For the pemfc cathode , besides above the parameters , the effects of the thickness of the reaction layer , the ion conductivity of nafion electrolyte and the electronic conductivity in carbon phase of the reaction layer on the electrode performance have also been investigated
在对pemfc阴极的研究中,除了以上参数以外还考虑了反应层厚度, nafion ~ ( ? )电解质的离子传导率以及反应层中碳相传导率对电极性能的影响。
8.However , inhering limit from that in the layered and spinel structures , there is no continuous network of feo _ 6 edge - shared octahedral that might contribute to electronic conductivity , resulting in a extremely low electronic conductivity , which has been the greatest obstacle for application of lithium ion phosphate
然而由于晶体结构的固有限制, lifepo _ 4具有极低的电子导电率,这已成为限制其应用的最大障碍。
9.First , a simple discussion for the mechanism about electrostatic atomization of the liquids has been given ; then the paper theoretically analyzed waving course , liquid drop producing course , and the liquid drop diffusing course in electrostatics atomization process . , gave an analysis about the methods about carrying charges to the liquid drop , and analyzed that liquid with high electrical conductivity can be carried charges and atomized by electric field , while the isolated liquid with low electrical conductivity can be charged fully with the soakage electrode and inducing charge methods . at last the paper designed and configured the experimental equipment , conducted the atomization experiment to the three liquid medium - kerosene , emulsifier and alcohol under the same environment , handled the experimental results , then summarized the relationship between liquid electrostatic atomization effect and liquid surface tension , electronic conductivity and viscosity , along with the influence of voltage to electrostatic atomization and so on , found out the liquid atomization rule in high voltage electrostatic field
首先,对液体介质的静电雾化机理作了初步的探讨,理论上分析了液体雾化过程中射流区、波纹区、雾滴区和雾滴扩散区;然后对液体荷电方法进行了研究分析,对于高电导率的液体,场致荷电和接触荷电可以使其雾化,而对于电导率较低的绝缘液体,需用浸润电极荷电和感应荷电方法使其充分带电;最后,根据前面的研究分析,设计和组装试验装置,在同一环境下对煤油、乳化剂、酒精三种不同液体介质进行高压静电雾化试验,并对试验结果进行分析处理,总结出液体静电雾化与液体表面张力、电导率和粘度的关系及电压对液体静电雾化的影响等,得出高压静电场中液体雾化的一般规律。
10.The voltage of lithium - intercalation reaction , impedance and structural stability of intercalation - type cathode material were analysed and calculated . theoritical results show that the reaction voltage depends on the content of lithium and the bond energy , and that the key ways to lower the electrode impedance are to increase the electronic conductivity of the electrode and the diffusion coefficient of lithium ion in the host and to decrease the size of powder . in addition , the thermal stability of lithium - insertion structure can be improved by using crystallographic co - lattice theory and doping treatment
本文从嵌入式阴极材料的嵌锂反应的电压、阻抗及结构稳定性的分析和理论计算着手,得到了电压取决于基体中各种离子间的键能及锂含量、降低电极阻抗的关键是提高电子型导电性和li ~ +在基体中的扩散系数及减小粉末粒度的理论依据及其利用晶体的共格原理和掺杂改性的方式来提高材料嵌锂结构的热稳定性的设计思路。
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