2) diffusion and deposition compound layer
渗镀复合层
3) composite alloying layer
复合镀渗层
1.
In present study,Ni-Cr-Mo-Cu composite alloying layer reinforced by the nano-Al_2O_3 particles was prepared by double glow plasma alloying on 316 L stainless steel surface,where Ni/nano-Al_2O_3 was firstly predeposited by brush plating.
利用X射线衍射仪(XRD)、扫描电子显微镜(SEM)和透射电子显微镜(TEM)对复合镀渗层的微观组织进行观察,采用极化曲线、电化学阻抗谱(EIS)和腐蚀磨损试验研究复合镀渗层的耐蚀性和耐腐蚀磨损性能。
4) composite depositing
复合渗镀
1.
Based on the composite depositing technology by the arc-added glow discharge, the composite target was used to deposit Cu and Ti alloy on the Al_2O_3 ceramics surface, realizing the surface alloying of Al_2O_3 ceramics.
基于加弧辉光复合渗镀技术,采用自行研制的复合靶对Al2 O3陶瓷表面进行Cu、Ti复合渗镀,实现了Al2 O3陶瓷表面合金化。
2.
Based on the composite depositing technology by the arc-added glow discharge, the composite target was used to deposit Cu and Ti alloy on the Al_2O_3 ceramics surface, realizing the surface alloying of A1_2O_3 ceramics.
基于加弧辉光复合渗镀技术,采用自行研制的复合靶对Al_2O_3陶瓷表面进行Cu、Ti复合渗镀,实现了Al_O_3陶瓷表面合金化。
5) composite coating
复合镀层
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.
Spectrophotometric determination of total precipitated quantities of nano-sized aluminium oxide in composite coatings with chrome azurol S;
铬天青S分光光度法测定复合镀层中纳米粉体氧化铝共析量
3.
Study on preparation and properties of nano Ni-SiC amorphous composite coatings;
纳米Ni-SiC非晶态复合镀层的制备工艺及性能研究
6) composite coatings
复合镀层
1.
Microtensile property of nano WC and PTFE composite coatings;
纳米WC和纳米PTFE的复合镀层微拉伸研究
2.
Study on properties of electrodeposited RE-Ni-W-B composite coatings;
电沉积RE-Ni-W-B多元复合镀层性能研究
3.
Study on preparation of Ni-P-SiC(C) composite coatings by electroless deposition;
化学沉积法制备Ni-P-SiC(C)复合镀层的研究
补充资料:热浸渗铝镀层
分子式:
CAS号:
性质:用热浸镀方法在钢表面形成的镀铝层。钢件浸入700~730℃的熔融铝液中,表面生成铝铁化合物,同时一部分铝原子渗入钢铁基体形成扩散层。为使镀层与基体金属牢固结合,一般在热浸后还要进行一次900~980℃的高温处理,使镀层软熔扩散,形成合金层。镀层具有优良的耐大气腐蚀性、抗高温氧化性和抗高温硫腐蚀性能。在石油、化工、能源、海洋工程等领域广泛应用。
CAS号:
性质:用热浸镀方法在钢表面形成的镀铝层。钢件浸入700~730℃的熔融铝液中,表面生成铝铁化合物,同时一部分铝原子渗入钢铁基体形成扩散层。为使镀层与基体金属牢固结合,一般在热浸后还要进行一次900~980℃的高温处理,使镀层软熔扩散,形成合金层。镀层具有优良的耐大气腐蚀性、抗高温氧化性和抗高温硫腐蚀性能。在石油、化工、能源、海洋工程等领域广泛应用。
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