纳米金刚石的嵌入不改变复合镀层的结构,但使镀层表面形成不平整的、微小球粒堆砌状形貌。
The embedded nanometer diamond particles don′t change the structure of Ni-P matrix, but coarsen the surface of the composite coating with a large number of spherical particles.
研究了化学复合镀纳米金刚石粉的不同施镀工艺,并分析了复合镀层的性能和结构。
The process of Ni-P nanometer diamond composite electroless plating was studied. The structure and hardness of the composite coating were analysed.
结果表明,纳米金刚石微粉的加入可改善复合镀层的结合强度,显著提高镀层硬度和耐磨及减摩性能。
The result indicates, adding nano-diamond powder can improve the joint intensity of composite coating, remarkably enhance hardness, wear-resisting and antifrictional performance of the…
结果显示,与机械搅拌和氮气搅拌相比,注射搅拌制得的复合镀层中的纳米金刚石含量较高。
The results show that the composite coating prepared with injection agitation has a larger nanometer diamond content than that with mechanical agitation and N2 agitation.
结果显示,与机械搅拌和氮气搅拌相比,注射搅拌制得的复合镀层中的纳米金刚石含量较高。
The results show that the composite coating prepared with injection agitation has a larger nanometer diamond content than that with mechanical agitation and N2 agitation.
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