1) NiCoCrAlY coatings
NiCoCrAlY膜层
2) NiCoCrAlY coating
NiCoCrAlY涂层
1.
Influence of salt spray corrosion on the performance of NiCoCrAlY coatings;
盐雾腐蚀对NiCoCrAlY涂层性能的影响
2.
The corrosion performance of NiCoCrAlY coating and NiCr coating
NiCoCrAlY涂层和NiCr涂层的抗腐蚀性能
3.
The microstructure of the NiCoCrAlY coatings deposited by arc ion plating (AIP) and its oxidation mechanism at initial stage were investigated by XRD, SEM, TEM and photostimulated luminescence spectroscopy (PSLS).
采用XRD,SEM,TEM和光激发荧光谱等技术对电弧离子镀制备的NiCoCrAlY涂层的组织结构和初期氧化的机理进行了研究。
3) ZrO2.Y2O3-NiCoCrAlY coatings
ZrO_2·Y_2O_3-NiCoCrAlY涂层
4) coating
[英]['kəʊtɪŋ] [美]['kotɪŋ]
膜层
1.
Influence of negative voltage on coating of magnesium alloy micro-arc oxidation
负向电压对镁合金微弧氧化膜层的影响
2.
The micro-arc oxidation ceramic coatings were formed on the titanium alloy surface by micro-arc oxidation in Na_2SiO_3 solution using an AC power.
结果表明:陶瓷膜表面的微孔直径、粗糙度随微弧氧化频率的增大而减小;陶瓷膜/环氧树脂的结合强度随频率的增加先是快速上升,当频率增加至400Hz时,膜层的结合强度达到最高值56。
3.
A self-made impact tester with low energy was used to evaluate the adhesion,cohesion and toughness etc of physical vapor deposited(PVD) CrMo and TiAlN coatings.
利用自行研制的小能量多冲试验装置,对物理气相沉积(PVD)方法制备的CrMo合金膜和TiA lN陶瓷膜的结合强度、韧性、内聚强度等机械性能进行综合评价;探讨了膜层性质、冲头几何形状、基材硬度等因素对PVD膜层在小能量多冲条件下失效行为的影响规律;比较了膜层在承受动态多冲与静态压入载荷条件下失效行为的异同;分析了膜层在小能量多冲条件下的失效机制。
5) Film
[英][fɪlm] [美][fɪlm]
膜层
1.
The result indicated that the reactions producing the phases in the coating were thermodynamically possible, and the formation of the MAO film was not a typical nucleation and growth process.
膜层是在不断击穿、生成、烧结、排泄堆积等过程中生长起来的,而且在反应过程中,膜层的生成是由反应电压、电流、电解液体系、pH值等各种工艺参数所控制的。
2.
The growth process of micro-arc oxidation film on magnesium alloys and the influencing factors were discussed.
对镁合金微弧氧化膜层的形成过程以及形成过程中的工艺影响因素做进一步的探讨,得出微弧氧化膜层的形成是一种亚单层生长模型,它是“成膜→击穿→熔化→烧结→再成膜……”的多次循环过程。
3.
Physical,chemical and mechanical characteristics of metal electrodepositing film depend on its structure and organization,which are influenced by many factors.
电沉积金属膜层的物理、化学性质以及力学性能与其组织结构密切相关 ,而沉积金属膜层的组织结构受诸多电沉积工艺条件的影响。
补充资料:表面涂层离子交换膜
分子式:
CAS号:
性质:系特种性能离子交换膜。其结构为在阳膜或阴膜表面再涂上一层阳离子或阴离子交换膜,使膜表面结构发生变化,比如孔隙度更加致密,以达到改性目的。如在磺酸型离子交换膜表面再薄薄地涂上一层酚醛磺酸树脂膜,则该膜对一价阳离子呈现出较好的选择透过性,而对二价阳离子则差一些。主要用于海水、卤水中NaCl的浓缩制盐和盐卤水中离子的分离。
CAS号:
性质:系特种性能离子交换膜。其结构为在阳膜或阴膜表面再涂上一层阳离子或阴离子交换膜,使膜表面结构发生变化,比如孔隙度更加致密,以达到改性目的。如在磺酸型离子交换膜表面再薄薄地涂上一层酚醛磺酸树脂膜,则该膜对一价阳离子呈现出较好的选择透过性,而对二价阳离子则差一些。主要用于海水、卤水中NaCl的浓缩制盐和盐卤水中离子的分离。
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