ohmic resistance
英
美
欧姆律电阻
英英释义
noun
- a material's opposition to the flow of electric current
双语例句
- The mechanism of FeS electrode process has been investigated by using linear cyclic voltammetry. The electrode porcess of FeS is accompanied with the formation and dissolution of insoluble FeS and controlled by ohmic resistance.
应用循环伏安法研究了硫化亚铁阴极的电极过程机理,电极反应过程伴随着难溶硫化亚铁的形成与溶解,该电极过程受欧姆电阻控制。 - By lots of testing and analyses time after time, Ohmic contact is formed Between Au and ZnO and the related resistance is about 27 Ω.
对ZnO六棱微米管的性能进行初步探索,经过大量、反复的分析测试,证实了Au/ZnO形成的金属与半导体的接触是欧姆接触,且电阻较小,约为27Ω; - Various methods to reduce the heat effect of Ni/ MH battery were summarized, such as decreasing ohmic resistance and charge polarization, increasing O_2 evolving over-potential, reducing O_2 recombination, heat dissipation and charge monitoring.
总结了各种降低MH/Ni电池热效应的方法,包括降低电池欧姆电阻、减小充电极化、提高氧气析出过电位、减少氧气复合以及散热和充电控制等。 - Howevers, there are significant barriers to intermediate temperature SOFC: electrolyte ohmic resistance and electrode overpotential, especially cathode overpotential.
但随着工作温度的降低,电解质欧姆电阻和电极极化电阻增大,而阴极的极化电阻增大尤为明显。 - The voltage drop occurring at the beginning of discharging for VRLA batteries is mainly caused by ohmic internal resistance of the batteries.
阀控式密封铅蓄电池(VRLA)电流放电初期出现的电压降主要是由电池欧姆内阻引起的。 - The Estimation of the State of Charge of Storage Battery Based on the Kalman Filtering Theory for Electric Vehicle Estimating ohmic resistance of PEMFC based on double Kalman filters
基于卡尔曼滤波的电动汽车剩余电量估计应用双卡尔曼滤波算法估计燃料电池欧姆内阻 - Study on the Ohmic Contact Resistance of n-type 3C-SiC Grown on Si Substrate
Si上外延的n型3C-SiC欧姆接触研究 - To study the PEMFC's ohmic internal resistance can predict the membrane's dryness. To control the operating temperature and the cathode humidity can reduce PEMFC's ohmic loss and improve PEMFC's efficiency.
合理控制工作温度、空气湿度等参数,可以减少欧姆极化损失,提高PEMFC的工作效率。 - Furthermore, the cyclic reversibility of the electrode reaction improves after doping La and the rare earth La has good effect in inhibiting the oxygen evolution reaction of sample electrode, reducing the electrode reaction of the electrochemical polarization and ohmic resistance, and increasing the discharge voltage.
同时,发现稀土元素物质La掺杂可以明显改善电极反应的充放电循环可逆性,并有效抑制镍电极上的析氧反应和降低电极反应的电化学极化和欧姆阻抗,提高其放电电压。 - Therefore, how to obtain ohmic contact on p-GaN with low contact resistance and high transmittance, which has became a hot research topic of researcher.
因此,如何在p-GaN上获得低阻和高透光率的欧姆接触,从而提高LED发光效率,一直是众多研究者关注的焦点问题之一。