1) interfacial resistance
界面电阻
1.
Composite cathode could improve the performance and efficiency of the solid oxide fuel cell at high temperature,decrease the over-potential,polarization resistance and interfacial resistance.
复合阴极可以提高固体氧化物燃料电池(SOFC)在高温下的性能和效率,降低过电位、极化电阻和界面电阻。
2.
The results show that the interfacial resistance of GSC-SDC cathode is 3~5 times lower than that of GSC cat.
用交流阻抗谱从500~750℃测量了GSC-SDC复合阴极和SDC电解质之间的界面电阻。
3.
The conductivity and interfacial resistance were tested by alternating current impedance techniques.
采用交流阻抗技术测试了其电导率和界面电阻,当x=8时,体系的电导率最大,80℃时为1。
2) interface resistance
界面电阻
1.
It is characterized by such strong points as low anode potential,small interface resistance,compactness of PbO_2 depositing coating,and small edge effect,etc.
该电极具有阳极电位低、界面电阻小、PbO_2沉积层致密无针孔、边缘效应小的优点。
2.
It has high application value in electrical, electronic and electrical chemistry industry because of its small value of interface resistance at transit electrical point.
爆炸复合材料的界面电阻,是用其制作的异种金属导电过渡接头的一项重要的技术指标。
3) Interface Electric Resistance
界面电阻
1.
Study on interface electric resistance of electro-osmotic consolidation;
电渗固结中的界面电阻问题
4) interfacial resistivity
界面电阻率
1.
With the increase of the total SDS content, increase the amount of SDS at the interface, interfacial potential ΔE, interfacial capacitance C, and interfacial charge-transfer current i P, while decreases the interfacial resistivity ρ i; .
无探针伏安法和电容法测定结果表明 ,在质量比H2 O/n C5H11OH =5 0 / 5 0条件下 ,SDS总含量 <3%时 ,上相呈W/O结构 ,下相呈O/W结构 ,随着体系中SDS总含量的增大 ,界面上SDS量增加 ,界面电势ΔE、界面电容C、界面电荷传递电流iP 均增加 ,而界面电阻率 ρi 则减小 ;当体系中SDS总含量≥ 3%时 ,上相呈W/O结构 ,下相呈双连续结构 ,各界面电性质变化幅度均变缓 。
5) interfacial contact resistance
界面接触电阻
1.
The effects of surface modification was evaluated by using the methods of corrosion tests, interfacial contact resistance measurement and XPS analysis.
通过电化学方法,对不锈钢金属极板进行表面改性处理;应用腐蚀性能实验、界面接触电阻测试和X射线光电子光谱(XPS)分析等方法,研究了表面改性对不锈钢金属极板性能的影响。
2.
05 mol/L H2SO4 +2 ×10-6 F- at 25 ℃ and 70 ℃ by electrochemical method, and interfacial contact resistances before and after electrochemical corrosion were evaluated.
用电化学方法测定了一种高Cr、Ni奥氏体不锈钢和316L在25℃和70℃时含2×10-6F-的H2SO4水溶液中的极化曲线,评价了氧化膜/碳纸和钝化膜/碳纸间的界面接触电阻。
3.
Corrosion behavior of an austenitic stainless steel was investigated in H2SO4 + 2 mg/L F- solution simulated aggressive PEMFC environment by using electrochemical method, and the interfacial contact resistance was measured between passive film and carbon paper after polarization.
用电化学方法研究了一种奥氏体不锈钢在H2SO4和2mg/LF-水溶液中的腐蚀行为,测量了钝化膜与碳纸间的界面接触电阻。
6) interface thermal resistance
界面热阻
1.
This paper introduces the main steps of the emulation of low-temperature interface thermal resistance between Al and Al with the method of non-equilibrium molecular dynamics, makes comparison of and analysis on the emulating results and experimental results, and points out the reasons of the errors.
介绍了用非平衡态分子动力学对低温Al与Al之间界面热阻仿真的主要步骤,并对仿真结果与实验结果进行了比较分析,指出了出现误差的原因。
2.
It is found that the thermal conductivity and the proportion of interface thermal resistance to total thermal resistance have no relation with the number of periods for the superlattice structure with a fixed period length.
模拟结果显示 ,周期长度固定的超晶格薄膜 ,界面热阻在总热阻中的比例和导热系数同周期数无关 ;当超晶格薄膜的膜厚不变时 ,导热系数将随着周期长度的增大而增大 ,但由于超晶格薄膜晶格常数的不匹配 ,使其内部发生明显的几何形变 ,这种变化关系也愈加复杂 ,同时周期长度的增加 ,平均界面热阻也随着增大 ,揭示了界面热阻不仅取决于界面层的物理条件 ,而且也与构成的介质内部形变有着重要关
3.
The interface thermal resistance was the basic science problem in the fields of cryogenics,aerospace,superconducting and microelectronic technology etc.
固体界面热阻是航空航天、低温与超导、微电子技术等领域中研究热点问题,氮化铝陶瓷和金属铜被广泛应用于低温超导装置和集成电路芯片。
补充资料:铂电阻温度表(见电阻温度表)
铂电阻温度表(见电阻温度表)
表。bod旧nZu wendubiao铂电阻温度表见电阻温
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条