1) three-dimensional reticular Sn-Ni electrode
三维多孔Sn-Ni合金电极
2) Sn-Ni alloy electrode
Sn-Ni合金电极
3) Zn-Ni-Sn ternary alloy
Zn-Ni-Sn三元合金
1.
Electroplating Zn-Ni-Sn ternary alloy on electrolyte copper foil using alkaline salt pyrophosphate solution was investigated.
采用碱性焦磷酸盐体系在电解铜箔上电镀Zn-Ni-Sn三元合金可改善铜箔表面的综合性能。
4) Sn-Ni alloy
Sn-Ni合金
1.
By introducing amino acid additives in the pyrophosphate plating bath,the Sn-Ni alloy coating containing 67% Sn(mass fraction),having similar color to Ni coating and excellent corrosion resistance as well,was prepared using electro-deposition.
采用氨基酸类添加剂在焦磷酸盐体系中电沉积出锡含量67%、颜色与镍镀层相仿、耐腐蚀性能优异的Sn-Ni合金镀层。
2.
The effect of process parameters such as current density,time,temperature,pH value,mixing method on the electric resistance and wear resistance of the gun colour Sn-Ni alloy coating were studied by orthogonal test,and the optimum process parameters were determined as follows: current density,0.
利用正交试验方法研究了电流密度、时间、温度、pH、搅拌方式等工艺参数对Sn-Ni合金枪黑色镀层电阻及耐磨性能的影响,确定了较优的工艺条件:Jκ=0。
3.
An ab initio method with the first-principles plane-wave pseudopotentials based on the density functional theory has been used to calculate the physical character and electrochemical performance of various alloy phases in Sn-Ni alloy.
采用基于密度泛函理论的第一性原理平面波赝势方法计算了Sn-Ni合金中2种稳定相结构的物理性质和电化学性质。
5) Ni-Sn alloy
Ni-Sn合金
1.
The characteristics and catalytic ability for hydrogen evolution reaction of Ni-Sn alloys prepared by electroplating
电沉积制备Ni-Sn合金电极材料的结构与电化学性能
6) Ni-Sn-P alloy
Ni-Sn-P合金
1.
Research progress of electroless Ni-Sn-P alloy plating;
化学镀Ni-Sn-P合金的研究进展
2.
Study and application of electroless plating Ni-Sn-P alloy deposit;
化学镀Ni-Sn-P合金镀层的研究与应用
3.
Effects of Sn content on the anticorrosion property of Ni-Sn-P alloy plating
Sn含量对Ni-Sn-P合金镀层耐腐蚀性能的影响
补充资料:多孔电极
分子式:
CAS号:
性质:为增大电极的真实表面积、降低极化而设计制作的电极。这是多种电池(包括电解电池和化学电源)经常采用的电极结构形式。一般是将物料的网、颗粒或细粉,通过填充、压碾、烧结、化成等方法装制成多孔的电极。根据电极反应的特点,可分为液/固两相和气/液/固三相多孔电极两大类。如电解槽的填充床电极、蓄电池的正、负极属于前者;燃料电池的气体扩散电极属于后者。
CAS号:
性质:为增大电极的真实表面积、降低极化而设计制作的电极。这是多种电池(包括电解电池和化学电源)经常采用的电极结构形式。一般是将物料的网、颗粒或细粉,通过填充、压碾、烧结、化成等方法装制成多孔的电极。根据电极反应的特点,可分为液/固两相和气/液/固三相多孔电极两大类。如电解槽的填充床电极、蓄电池的正、负极属于前者;燃料电池的气体扩散电极属于后者。
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