1.
Tribological property of TiN diffusion coating in-situ synthesised on titanium alloy surface
钛合金表面原位合成TiN渗镀层摩擦性能研究
2.
Research of Wear Resistance and Corrosion Resistance with TiN Multi-permeation Layer Formed by Reactive Sputtering;
反应溅射形成氮化钛复合渗镀层耐磨耐腐蚀性能的研究
3.
Study on Tial Based Alloy Coating Treated by Plasma Nb-C Alloying and Its Theoeretical Study of Diffusion Mechanisms
TiAl基合金等离子铌碳复合渗镀层及其扩散机理的理论研究
4.
Preparation and application of nitriding-ion plating composite coatings
渗氮-离子镀复合涂层的制备及其应用
5.
Cobalt-tungsten electrodeposit as copper barrier was presented in the paper.
本文提出以电镀钴钨二元合金镀层作为防铜渗层。
6.
A new technique was developed on the bases of PVD costing and PVD diffusing technique.
在物理气相沉积镀层工艺基础上发展了镀渗新工艺。
7.
The Research of Hydrogen Permeation Behavior and Anticorrosion of Zn-Fe Alloy Electrodeposition;
Zn-Fe合金镀层的耐蚀性及其渗氢行为研究
8.
Effect of Nanoparticles on the Erosion-Corrosion Resistance Property of a Ni-Based Alloying Layer
纳米颗粒对Ni基复合镀渗层耐冲蚀性能的影响
9.
Meanwhile, properties of cobalt-tungsten, nickel, cobalt deposit as copper barrier at temperature between400℃ and800℃ were compared.
同时比较了在400~00℃,钴钨合金镀层与镍层、层的防铜渗能力。
10.
Results showed cobalt-tungsten deposit as copper barrier at temperature of500℃ and below was superior to nickel, cobalt deposit.
当温度低于500℃,钴钨合金镀层的防铜渗性能优于后二者。
11.
Study on Preparing the Hydrogen Permeation Barrier on the Surface of the Zirconium Hydride with Electroplating and CO_2 Reaction Method;
电镀法和CO_2反应法制备氢化锆表面氢渗透阻挡层的研究
12.
Study on Microstructure and Wear Resistance of Cr-Mo Surface Modified Layer on Ti6Al4V by Double-Glow Plasma Technique
Ti6Al4V合金渗镀Cr-Mo表面改性层组织结构及其耐磨特性研究
13.
Investigation on corrosive wear property of nano-Al_2O_3 particles reinforced Ni-based alloying layer
纳米Al_2O_3颗粒增强Ni基复合镀渗合金层的腐蚀磨损性能研究
14.
peen plating
(金属粉末)打散渗镀法
15.
Plating Technology and Properties of Electroless Ni-Mo-P Alloy Coatings
化学镀Ni-Mo-P合金镀工艺及镀层性能
16.
Mass Calculation of coating (For equal coating)/MM
锌镀层质量(两个相同锌镀层厚度)
17.
The adhesive strength of the acid film was stronger than that of the alkali film.
碱性镀层的结合强度优越于酸性镀层。
18.
Research of Ni-P Gradient Coating and Ni-P/SiC Gradient Coating;
Ni-P梯度镀层及Ni-P/SiC梯度镀层研究