介绍了采用纳米镍-钴镀层作为新型胎体材料,制备电镀金刚石工具的方法及其特点。
The process for preparing electrodeposited diamond tools by using nanocrystalline Ni-Co alloy deposit as a new matrix material and the features are presented.
通过电镀的方法制备了不同晶粒尺寸的纳米镀锌层和微米镀锌层。
Different crystalline-sized nanometer and micrometer zinc plates were prepared by electroplating.
采用无电镀沉积技术在经过机械抛光的单晶硅衬底上沉积了铜纳米晶。
Copper nanocrystallites were deposited on mechanically polished single crystal silicon (sc-Si) wafers by electroless deposition method.
相关金微阵列电极电镀的交流电阻抗实验也说明纳米颗粒的沉积对于降低电极体阻抗及增大表面活化处理的作用。
The relative AC impedance results also proved the deposition of platinum nanoparticles was beneficial for lower electrode body impedance and better surface activation treatment.
结果表明:碳纳米管球磨后加入到镀液中,并通过超声分散,可以得到稳定的复合电镀液;
The results indicated that CNTs were stably suspended in nickel bath after ball-mill treatment and supersonic dispersion.
首先制备了铝阳极氧化模板,随后通过电镀法制备了纳米线,并对铝阳极氧化模板和纳米线进行了表征。
A template of anodic aluminum oxide is prepared first, then a nano-wire is electrodeposited, and on this basis, the template of anodic aluminum oxide and nano-wire are characterized.
首先制备了铝阳极氧化模板,随后通过电镀法制备了纳米线,并对铝阳极氧化模板和纳米线进行了表征。
A template of anodic aluminum oxide is prepared first, then a nano-wire is electrodeposited, and on this basis, the template of anodic aluminum oxide and nano-wire are characterized.
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