1) micronormal
微电位
2) micro-potentiometer
微电位计
1.
A new kind of radio frequency micro-potentiometer is introduced.
介绍了一种改进的新型射频微电位计。
3) micro-electrolysis
微电解
1.
Pretreating of wastewater from vitamin B_1 production by coagulation - micro-electrolysis process;
混凝—微电解预处理维生素B_1生产废水
2.
The treatment of the highly concentrated chemical wastewater by the aerated micro-electrolysis and flocculation-deposition process;
曝气微电解—絮凝沉淀法处理高浓度化工废水
3.
Treatment of printing and dyeing wastewater by micro-electrolysis method;
铝炭微电解法对印染废水的处理
4) microelectrode
微电极
1.
Effect of spherical biocarrier structure on the mass transfer by microelectrode;
采用微电极测定球形填料结构对传质过程的影响
2.
Electrocatalytic Oxidation of Nitric Oxide at Carbon Black MicroelectrodeModified with Nickel Complex of N-Salicylidene Glutamic Acid;
一氧化氮在水杨醛谷氨酸合镍修饰碳黑微电极上的电催化氧化
3.
Development of Hg-Au Microelectrode for Measuring O_2,Mn~(2+),Fe~(2+),and S~(2-) in Marine Sediment Pore Water;
适用于海洋沉积物间隙水中氧、锰(Ⅱ)、铁(Ⅱ)、硫分析的金汞齐微电极
5) microelectrolysis
微电解
1.
Treatment of direct scarlet 4BE dye wastewater by the hybrid method of Fe/C microelectrolysis and ultrasound radiation;
超声波/铁-炭微电解耦合处理直接大红4BE染料废水
2.
Application of microelectrolysis-biomembrane process to the treatment of Ba~(2+)-bearing organic wastewater;
微电解—生物膜复合工艺处理含Ba~(2+)有机废水
3.
Study on the process of dyestuff wastewater treatment by microelectrolysis;
铁屑微电解法处理染料废水
6) micro-electrode
微电极
1.
The methods for the preparation of screen-printed micro-electrode (SPME) were reported in detail.
对丝网印刷术在微电极制备方面的应用作了系统和详尽的描述,对绷网、制阳图底板、涂布感光胶、晒网、显影、坚膜、印刷等印制各步骤中所需注意事项和技巧作了总结。
2.
Abnormal negative separations of micro-electrode log curves are very vommon in the low permeability reservoir.
针对微电极曲线的负差异现象在低渗透油藏中的普遍情况 ,从微电极测量原理入手 ,结合低渗透油藏的其它曲线特征与孔隙结构差异 ,对微电极曲线的负差异现象进行了解释 ,认为原因是储层的渗透性差、泥浆的侵入非常弱以及没有形成泥饼等现象造成的 ;结合岩心实验资料和试油资料 ,将微电极负差异现象应用于低渗透油藏的物性下限研究和油干层的判别中 ,取得了良好的效果。
3.
In this paper, methods how to prepare screen-printed micro-electrode(SPME) were reported in detail.
国内外有很多在这方面的应用实例,但大多文献对印制电极技术本身涉及很少,现有的丝网印刷书籍、资料又只着重于丝网印刷在纺织印染、广告制作等方面的应用,对印制微电极少见报道,本文就丝网印刷技术在微电极方面的应用和印制过程
参考词条
补充资料:耳蜗微音器电位
耳蜗微音器电位(cochlearmicrophonics,cm)
1930年,韦弗(e.g.wever)和布雷(c.w.bray)在猫身上做实验。当声音作用于耳时,可从圆窗引出一种与刺激的音波相似的电位变化。如将此电位引到扩音器上,即可复制出刺激的声音,因而认为耳蜗有如一微音器,故称此种电位为耳蜗微音器电位。这种引起微音器电位的效应,被称之wever-bray效应。在圆窗上先后可记录到两种电位,一种为微音器电位(cm),另一种为耳蜗神经上的动作电位(n1、n2、n3)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。