展望了硫电极材料的电化学性能改进方向。
The developing trends of electrochemical performance improving for sulfur electrode materials were prospected.
通过循环伏安等实验研究了电极的电化学性能。
The electrochemical behavior of the electrode has been studied by the cyclic voltammetry.
并对其结构与光化学性能之间的关系进行了讨论。
The relationship between the structure and the photochemical properties was also discussed.
通过恒流法和循环伏安法测定了材料的电化学性能。
Its electrochemical properties were tested by constant current methods and cyclic voltammetry techniques.
化学性能测试:材料的盐雾试验、不锈钢腐蚀试验等。
Chemical property testing: salt spray test of materials, corrosion test of stainless steel.
讨论了该类材料的电化学性能、制备工艺及发展前景。
Additionally, the development prospect of the nanometer alloy anode materials is discussed.
氧气是物质世界的重要元素之一,它的化学性能很活跃。
Oxygen is one of the most important elements in physical world, it is very active chemically.
采用充放电测试技术对电极材料的电化学性能进行了研究。
The electrochemical properties of the cathode material were studied by charge discharge technology.
利用两端子法对烧结后的SOFC进行了电化学性能测试。
The electrochemical properties of the obtained SOFC are tested by two-probe method.
贮氢合金电极的表面处理是改善其电化学性能的有效方法。
The surface treatment of hydrogen storage alloy electrode is an effective method to improve its electrochemical performances.
铝合金因其独特的物理、化学性能对mig焊有特殊的要求。
Al - alloys have special requirements on MIG welding due to their unique physical and chemical properties.
它提供了按照基本的物理和化学性能选择和鉴别部件的方法。
It provides a means for selecting and identifying compounds on the basis of a number of physical and chemical criteria.
研究了机械力作用下铁矿粉与碳粉的物理化学性能的变化规律。
Physical and chemical properties of iron ore powder and carbon powder with mechanical impact are studied.
在此基础上讨论了各类聚合物电解质的电化学性能和应用范围。
On this base the electrochemical performances and application range of different polymer electrolytes were discussed.
氧是物质世界最重要的元素之一,其化学性能化学性能很活泼。
Oxygen is one of the most important elements in the physical world and it is very active chemically.
结合循环伏安与充放电测试,对材料的电化学性能进行了评估。
The electrochemistry properties of materials were evaluated by CVs and charge-discharge test.
本文报道了三种电极片接线方式对贮氢合金的电化学性能的影响。
The effects of three connection methods of electrode slices on the electrochemical properties of hydrogen storage alloys are reported.
如果知道了原子的电子结构,我们就可以合理解释金属的化学性能。
Knowing the electronic instrument of atoms, we can interpret the chemical properties of the metals in a reasonable way.
在产品说明书中的保持涂料的物理和化学性能的能力(温度和时间)。
The ability of the coating to maintain uniform physical and chemical properties subject to the manufacture 'rs specification (time and temperature).
在过去,可用的颜色并不多,有一些颜料的特殊化学性能决定了它们特别方便使用。
In the past, there weren't so many colors available, and some had particular chemical qualities that made them good to use.
胶体颗粒和超筛分颗粒的物理和化学性能时常与其颗粒的大小和分布有关。
The physical and chemical properties of colloidal and subsieved particles often depend upon their particle size and its distribution.
贮氢合金的表面成分和形态对金属氢化物电极的电化学性能具有重大影响。
The surface composition and morphology of hydrogen storage alloys have an important influence on the electrochemical properties of metal hydride electrodes.
考察了PEG的分解速率和添加量对材料结构、形貌和电化学性能的影响。
The influence of decomposing rate and the amount of PEG on structure, morphology and electrochemical properties was studied.
锌作为化学电源的负极材料,不仅来源丰富,而且具有优良的电化学性能。
Zinc is used as the cathode material, not only the source is abundant, and has excellent electrochemical performance.
它具有良好的机械性能和化学性能,是适合的运送高压和腐蚀的空气,水。
It has good mechanical property and chemical property, which suits for the transportation of high pressure and corrosive air, water.
指与有关天然刚玉对比,具有基本相同的物理、光学及化学性能的人造材料。
It refers to artificial material with the basically the same physical, optical and chemical performances as natural boule.
要符合这个标准下的特殊材料分类,需要满足一系列最低物理和化学性能要求。
Conformance to a particular material classification in this standard requires meeting a number of minimum physical and chemical properties.
添加剂:在溶液中含有的能改进溶液电化学性能或改善镀层质量的少量添加物。
Additives: in containing the solution can improve the solution or improve the electrochemical properties of the coating quality a few additives.
在甲烷气氛中蒸发各种磁性金属可获得具有良好物理化学性能的磁性纳米胶囊。
The magnetic nanocapsules with good physicochemical performance are obtained through vaporizing various magnetic metals in the methane atmosphere.
从工作原理和获得薄膜的物理化学性能等各方面,对这些技术进行了分析和比较。
Various technologies were compared and analyzed by the working principle and the physical and chemical properties of the obtained thin films.
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