1.
The Effect of Organic Acids on Surface Charge Properties of Soils and Second Adsorption of Cadmium;
有机酸对土壤表面电荷性质及Cd~(2+)次级吸附的影响
2.
The Kinetic Approach to the Determination of Interface Electrochemical Properties of two type of Colloids
动力学方法测定两种类型胶体颗粒表面电荷性质的比较研究
3.
Dynamic Behavior of Surface Charge on Polymer Insulating Materials
![点击朗读](/dictall/images/read.gif)
聚合物电介质表面电荷动态特性研究
4.
Remove Surface Charge from Battery
![点击朗读](/dictall/images/read.gif)
从电瓶中消除表面电荷
5.
Studies on Synthesis, Interface Electrochemical Properties and Drug Carrier of Structurally Charged Layered Materials;
荷结构电荷层状物质的制备、界面电化学性能及药物载体应用研究
6.
Studies on the Rheological Behaviors and Dynamic Scaling Theory of Opposite Charged Surfactant and Polyelectrolyte Complex Solution
相反电荷表面活性剂—聚电解质复合溶液流变行为与动力学模型的研究
7.
surface channel ccd
![点击朗读](/dictall/images/read.gif)
表面沟道电荷耦合掐
8.
surface charge varactor
![点击朗读](/dictall/images/read.gif)
表面电荷变容二极管
9.
The surface of the soil particle will have a negative charge.
![点击朗读](/dictall/images/read.gif)
土粒表面会有负电荷。
10.
Investigations of Modification and Interfical Photoinduced Charge Separation of Nanosized TiO_2;
纳米TiO_2的改性及表界面光生电荷分离研究
11.
EVALUATION OF SURFACE CHARGE CHARACTERISTICS OF SOILS USING MULTI-LANGMUIR MODEL
![点击朗读](/dictall/images/read.gif)
应用Multi-Langmuir模型评价土壤的表面电荷特性
12.
Surface Charge Properties of Epoxy Composite Under Nanosecond Pulsed Voltages
![点击朗读](/dictall/images/read.gif)
真空ns脉冲下环氧复合材料表面电荷特性
13.
Surface Charge Effect of Al_2O_3 Ceramic MF Membrane Determined by Streaming Potential Measurement
流动电势测量法表征Al_2O_3微滤膜的表面电荷性能(英文)
14.
Surface and space charge measurement of gas discharge
![点击朗读](/dictall/images/read.gif)
气体放电表面电荷和空间电荷测量方法
15.
The boundary of the charge region for a proton is not sharp like the surface of a billiard ball.
质子电荷飞域的边界并不象弹子球的表面那样分明。
16.
Adsorption, Desorption and Activities of Acid Phosphatase on Various Active Particles from a Permanent-charge Soil;
恒电荷土壤活性颗粒表面酸性磷酸酶吸附、解吸及活性
17.
Discussion on the distribution law of the charge on surface of spheroid in the point charge field;
点电荷场中球体表面电荷分布规律的研究
18.
These finishes make the surface of the material more conductive so that electrostatic charges will be dissipated.
这些整理措施增强了材料表面的导电性,静电荷会快速消散。