电热效应 meaning in Chinese
electrocaloric effect
electrocalorio effect
electrothermal effect
Examples
- Electro - thermal effect of carbon fiber reinforced cement composites
碳纤维水泥基材料的电热效应 - Supported by the 863 program under grants no . 2002aa005010 - 1 and national science foundation under grants no . 50078042 , this dissertation makes use of the joule heating effect of carbon fiber electrically conductive concrete to deice or melt snow
本文在“ 863 ”高科技项目(编号: 2002aa005010 - 1 )和国家自然科学基金项目(编号: 50078042 )的资助下,以碳纤维导电混凝土的电热效应来达到融雪化冰的目的。 - However , when both temperature gradient and compressive stress exist , the interaction between mechano - electric effect and seebeck effect is obvious . so methods are suggested to remove the coupling effect . similarly , electromechanical effect of cfrc can affect electrothermal effect and vice versa
碳纤维混凝土的电力效应与电热效应的耦合关系明显,一方面,电力效应中包含有电热效应的贡献;另一方面,电力效应所引起的微结构变化导致碳纤维混凝土电阻的增加。 - In the dissertation , the study on carbon fiber reinforced concrete ( cfrc ) and plain concrete has been reviewed . then mechano - electric effect of cfrc and plain concrete , its mechanisms , the interaction among mechano - electric effect , piezoresistivity and seebeck effect , the electrical circuit model of concrete based on mechano - electric effect , electromagnetic emission of concrete , the mathematical model of mechano - electric effect are investigated . also the converse effect of mechano - electric effect of cfrc and plain concrete , that is , electromechanical effect , and the interaction between electromechanical effect and electrothermal effect of cfrc are examined
本文对碳纤维混凝土和素混凝土机敏性的国内外研究现状进行了全面的评述,在大量实验分析的基础上,系统地研究了碳纤维混凝土和素混凝土的力电机敏性,研究了力电效应机理、力电效应与其它效应(压阻效应、塞贝克效应等)的耦合关系、基于力电效应的混凝土电学模型、混凝土电磁发射现象、混凝土力电效应的数学模型等;论文同时对混凝土和素混凝土的电力效应、碳纤维混凝土电力效应与电热效应的耦合关系等进行了探讨;最后开展了基于力电效应的机敏混凝土结构应用研究。 - As the microbolometer which is voltage biased express some characters different from other infrared detectors under the effect of electric heat and infrared radiation together , the computing method of parameters , such as responsivity , noise , noise equivalent temperature different ( netd ) , noise equivalent power ( nep ) , optical gain , detectivity and so on is given in this paper . some of these parameters are particular compared with other detectors , and some have difference between microbolometer and other detectors
由于微测辐射热计在施加偏置电压的情况下,电热效应与红外辐射的共同作用使它表现出与其他红外探测器完全不同的一些特征,文中给出了响应率、噪声、噪声等效功率、噪声等效温差、光学增益、探测率等参数的计算方法,这些参数中的部分是微测辐射热计独有的,或者与其他的红外探测器的同一参数有所区别。