1) thermo-potential
热势
2) hot tearing/hot tearing potential
热裂/热裂势
3) thermal tendency
热工趋势
4) thermoelectric potential
热电势
1.
This paper introduces two ways of thermoelectric potential and solid electrolyte electrochemical sense can measure the content of silicon and it also introduces the application and opinion of these methods in the molten iron and ferroalloy production.
本文介绍热电势法和固体电解质电化学传感法两种铁水测硅方法,并叙述了上述方法在铁水和铁合金生产中的应用状况及改进意见。
2.
In this paper,using the curve fitting toolbox of MATLAB,the mathematical model,which can reflect the relations between thermoelectric potential and measured temperature by commonly-used thermocouples of types S,K and N,has been established.
运用MATLAB软件中的曲线拟合,建立了陶瓷工业窑炉测温常用的S、K、N三种不同类型热电偶热电势与其温度关系的数学模型,便于计算机控制窑炉时的转换计算及其应用。
5) thermoelectric power
热电势
1.
Influence of s-f exchange effect and s-s electron exchange effect on the thermal conductivity and thermoelectric power in a rare earth metal.;
s-f交换作用和s-s电子交换作用对热导率和热电势的影响
2.
We determined the structure of the samples using powder X-ray diffraction, and measured the electrical resistivity ρ(T) and thermoelectric power S(T).
电阻率 ρ(T)和热电势S(T)测量结果表明 ,由于Cu替代Ni使得单胞体积和 3d传导电子数目增加 ,4f电子与传导电子之间的杂化减弱 。
3.
This paper deals with the thermoelectric power (TEP) characteristics of an interstitial free (IF) steel sheet before and after the galvanizng processing Recrystallization of the matrix increases the TEP value, and formation of the coating decreases the TEP value TEP values of the IF steel sheet reflect the anisotropy present in the sheet These are related to the changes in sheet textur
研究了冷轧 IF钢板镀锌前后的热电势 ( TEP)特性。
6) thermopower
热电势
1.
Anomalous thermopower and resistivity of the electron-doped superconductor Sm_(2-x)Ce_xCuO_4(0.00≤x≤0.21);
电子型超导体Sm_(2-x)Ce_xCuO_4(0.00≤x≤0.21)的异常热电势与电阻率
2.
Study of resistivity and thermopower of La_(2-x)Sr_xCuO_4 thin films;
La_(2-x)Sr_xCuO_4单晶膜的热电势与电阻率
3.
Experimental study on thermopower of transition metals Fe,Co and Ni in the vicinity of Curie temperatures;
过渡金属Fe,Co,Ni居里点附近热电势的实验研究
补充资料:热势
1.显赫的权势。
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