1) brush plating power supply
刷镀电源
1.
The thickness gauge for cladding material is install in brush plating power supply.
试验结果表明:所研制的镀层厚度控制器不仅具有体积小、精度高、性能可靠的特点,而且还可以与各种刷镀电源配合使用,实现对刷镀层厚度的设定与控制。
2) Flow Plating Technology (FPT)
电刷镀流镀
3) brush electroplating
电刷镀
1.
Study on technology of brush electroplating Ni-PTFE composite coating;
电刷镀Ni-PTFE复合镀层工艺研究
2.
Effect of surface active agents on dispersion stabilization of nano Al2O3 in brush electroplating solution had been researched by spectral photometer.
采用分光光度计研究了表面活性剂对纳米Al2O3颗粒在电刷镀液中分散稳定性的影响。
3.
The nanoparticle and amorphous composite coating n-Al_ 2 O_ 3 /Ni-P was prepared on mild steel AISI 1045 surface via nano brush electroplating process in order to gain high contents of P element and n-Al_ 2 O_ 3 particle and their optimum matching in the coating.
采用纳米电刷镀技术在钢基体表面制备了n-Al2O3/Ni-P复合刷镀层,研究了复合刷镀液中纳米颗粒含量、刷镀电压和刷镀笔移动速度对复合刷镀层中P和Al2O3含量的影响。
4) brush-plating
电刷镀
1.
Composite Technics of Shot-peening and Brush-plating for Renovating Gears on Helicopter;
直升机齿轮喷丸-电刷镀复合修复工艺研究
2.
Application of cohering and brush-plating composite technology;
粘涂—电刷镀复合工艺的应用
3.
Researehes on Compound Brush-plating of Ni-W-SiC;
镍-钨-碳化硅复合电刷镀研究
5) electro-brush plating
电刷镀
1.
Nickel matrix composite coating with micron Al2O3 particles was prepared by electro-brush plating.
应用复合电刷镀技术制备了含有Al2O3陶瓷颗粒的镍基复合镀层,对复合镀层表面形貌进行了研究,对镀层的显微硬度和摩擦磨损性能进行了测试,并分析了Al2O3对镀层磨损性能的影响。
2.
Nano-SiO2/Ni-based composite coatings on 65Mn steel were prepared by electro-brush plating technique.
采用电刷镀技术在65Mn钢材上制备了纳米SiO2/Ni基复合镀层。
3.
Nickel-base composite coatings containing nanometer WC and PTFE were prepared by electro-brush plating on Q235 steel substrate.
采用电刷镀技术在Q235钢基材上制备含纳米WC和PTFE的镍基复合镀层,采用S-2700型扫描电子显微镜观察镀层表面形貌及其显微组织,采用HX-1型显微硬度计测定镀层的显微硬度,采用WS-2005型涂层附着力自动划痕仪测定镀层与基体的结合强度,采用HT-500型销-盘高温摩擦磨损试验机测量镀层的滑动磨损性能。
6) electric brush plating
电刷镀
1.
Experimental research on composite arc spraying/electric brush plating technology
电弧喷涂复合电刷镀实验研究
2.
Shining nc-Ni films are prepared with the electric brush plating technology.
采用电刷镀技术在铜基体表面上制备光亮的纳米镍薄膜。
3.
By the electrochemical method in 5%HC1 solution, the corrosion resistance of the composite of Ni-Cr-Mo-Cu multi-element surface alloying with electric brush plating Ni interlayer on the low carbon steel substrate has been investigated.
在20钢表面电刷镀快速Ni层作为过渡层,然后采用双层辉光离子技术将Ni-Cr-Mo-Cu合金进行多元共渗,对形成的复合镀层在5%HCl溶液中进行了电化学腐蚀性能测试。
补充资料:刷镀
分子式:
CAS号:
性质:一种改进型的刷镀技术,除不用电镀槽和阳极为惰性的电刷型“镀笔”外(这些与原来的刷镀类似),其特点为:高浓电液;高电流密度(高速电镀)和采用便于控制的专用电源。该法适用于现场维修和制造,可获得高品质的部件。电刷镀有时仍简称刷镀,也有称之为涂镀或笔镀的。
CAS号:
性质:一种改进型的刷镀技术,除不用电镀槽和阳极为惰性的电刷型“镀笔”外(这些与原来的刷镀类似),其特点为:高浓电液;高电流密度(高速电镀)和采用便于控制的专用电源。该法适用于现场维修和制造,可获得高品质的部件。电刷镀有时仍简称刷镀,也有称之为涂镀或笔镀的。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条