实验表明:表面活性剂的吸附量随着电解质的浓度及离子强度的增加而增大;
Experiments showed that the absorption quantity of surfactant increases with the increase of electrolyte concentration and ion intensity.
电流在与电解质接触的半导体材料的一或多个表面上形成多孔层。
The current forms a porous layer on the one or more surfaces of the semiconductor material in contact with the electrolyte.
分别采用无机电解质、表面活性剂和超声波等方法对纳米金刚石进行了分散实验研究。
The nanodiamond dispersion experiment was done by inorganic electrolyte, surface-active agent and supersonic wave methods.
长链状的聚电解质分子内部的协同作用增加了其各个单体在胶体颗粒表面的吸附量。
The polyelectrolytes with long chain length present a cooperativity effect for the adsorption of the polyelectrolytes on the surface of the macroions.
该技术的关键是在处于气相环境中的金属表面上涂敷一层CK固体电解质。
The key of the technology is to coat a solid CK electrolyte layer on the metal surface in atmosphere condition.
研究结果表明:交替沉积技术可以增加聚合电解质在纤维表面的吸附量,并引起纤维表面电位的变化。
The research results showed that the deposition technique can add the absorbed amount of polyelectrolyte and cause potential changes in fiber surface.
电解质浓度影响吸附态磷的解吸主要与表面电位的变化有关。
The effect of concentration of electrolyte in desorbing solution on phosphate desorption was related to the medium pH and the PZC value of solid phase.
据称,这种阴阳极油墨采用独特的配方,具有合适粘性与表面,从而使其非常适合用作覆盖在陶瓷设备电解质层上面的丝网印刷电板。
The cathode and anode inks are formulated with viscosities and surface areas ideal for screen-printing electrodes onto the electrolyte layer of ceramic devices.
用电化学方法研究了铝电解质熔液中石墨电极上的阳极过电压和阳极表面析出气泡的规律。
The anodic overvoltage and producing gas bubble law on the anodic surface were studied by electrochemical methods.
结果声空化法能够制备出粒径分布均匀的超声造影剂微泡,聚电解质有效地组装到ST68 - PF C微泡表面。
Results the obtained microbubble UCA exhibited a narrow size distribution. The polyelectrolytes were successfully assembled onto the surface of ST68-PFC microbubbles.
介绍了多种电解质和表面活性剂,用这些添加剂可以实现对泥浆悬浮性和流动性的调节,并对调节原理进行了解释。
The paper introduced varied electrolytes and surfactants. These additives play an important part in slip process including suspension property and flowability. The simple explanation was given.
有两种对电解质中金属表面提供阴极保护的基本方法,它们是原电池阴极保护和外加电流阴极保护。
There are two basic methods of applying cathodic protection to a metallic structure in contact with an electrolyte. These are galvanic cathodic protection and impressed current cathodic protection.
H2D分子在表面的动态吸附行为与平衡时间、溶液浓度、H2D分子自身的电性、电解质浓度和种类以及温度有关。
Moreover, the dynamic adsorption behavior of H2D was related to the aging time, solution concentration, electric of H2D, the type and concentration of electrolyte, and temperature.
结果表明:碳纤维表面各种基团的数量与电解质的种类有关,电化学氧化可以明显增加碳纤维表面含氧基团的数量。
The results indicated that the amounts of surface groups were related to the electrolyte used and increased by electrochemical oxidation.
本文以金属处于表面薄层电解质下的腐蚀过程为基础,提出大气对金属外表面腐蚀的机理。
In this paper, the corrosion mechanism of metal surface caused by air was proposed based on the principle of corrosion process of metal enclosed by the thin surface electrode.
所述植入物的生物相容性金属表面在施加电流的电解质溶液中进行电化学蚀刻。
The biocompatible metal surface of the implant is submitted to electrochemical etching in an electrolyte to which an electric current is applied.
后来随着色谱技术在生物领域的应用,两性表面活性剂又被用作流动相,即把其溶解于电解质溶液中,此流动相能很好地分离含蛋白质的生物样品。
With the application of chromatography technique to the biological field, zwitterionic surfactant is widely applied to the capillary electrophoresis which is used as stationary and dynamic coatings.
实验表明,电解质的加入以及表面活性剂的复配都能提高单一表面活性剂对双酚a的增溶率。
Studies were carried out for the removal of bisphenol a from aqueous solutions by using Micellar-Enhanced Ultrafiltration Technique (MEUF).
用电化学方法研究了铝电解质熔液中石墨电极上的阳极过电压和阳极表面析出气泡的规律。
The results showed that the anodic overpotential decreased with increasing of Bi content in the alloy.
用电化学方法研究了铝电解质熔液中石墨电极上的阳极过电压和阳极表面析出气泡的规律。
The results showed that the anodic overpotential decreased with increasing of Bi content in the alloy.
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