1) DC electrolytic etching
直流电解腐蚀
2) The anodic etching method
直流电化学腐蚀
3) electrolytic corrosion
电解腐蚀
1.
Effect of heat treatment on the electrolytic corrosion properties of aluminum based PS plate was studied comparing with high quality 1050 PS plate from abroad by test of polarization curve,SEM,and optical microscope.
结果表明,具有大量细及均匀分布的第二相颗粒和均匀晶粒组织的板基电解腐蚀性能好。
2.
The effect of aluminum lithographic support material on the usage mostly represents on the electrolytic corrosion property.
PS版用铝基材对使用的影响主要表现在电解腐蚀性能方面,影响电解腐蚀的因素很多,从材料角度看其中热处理是主要因素之一。
3.
The thermal shock resistance, flexural strength and static thermal corrosion rates and electrolytic corrosion rates in cryolite molten salt were measured and the cor-rosion process was studied.
采用X射线衍射和扫描电子显微镜对材料的组成和微观结构进行了研究,并测量了样品抗热震性、抗折强度、在冰晶石熔盐中的静态热腐蚀以及电解腐蚀速率,对其腐蚀过程作了初步探讨。
4) electrolysis corrosion
电解腐蚀
1.
The electrolysis corrosion rates in the cryolite molten salt under different current densities were measured and the corrosion mechanism was preliminarily discussed.
用X射线衍射和扫描电子显微镜对材料的组成和微观结构进行了研究,测量了样品在冰晶石熔盐中不同电流密度下的电解腐蚀速率,并对其腐蚀机理作了初步探讨。
5) electrochemical etch
电解腐蚀
1.
Then the alloy coatings were electrochemical etched with specific parameters,resulting in pure copper coatings with nanoporous microstructure.
对合金涂层进行了特定参数的电解腐蚀后,得到了纳米多孔结构的Cu涂层。
6) corrosion current
腐蚀电流
1.
The electrochemical polarization results proved that the spreading rate of micro-droplets increased linearly with the polarization current,and the corrosion current established by the potential differen.
电化学极化结果显示,微液滴的成核速率随极化电流的增加而线性加速,促使大气腐蚀过程发生的电位差和相应的腐蚀电流是微液滴形成和发展的推动力。
2.
Based on the results of electrochemical polarization,the corrosion current of a.
电化学极化结果显示,大气腐蚀过程中的腐蚀电流是微液滴形成和发展的推动力。
3.
5 and QAl 10-4-4 in NaCl solution,and their corrosion currents during coupling with bronze alloy QAl 9-2 were measured by electrochemical methods.
应用电化学测试手段 ,针对 2 0、2Cr13、QAl 9-2、QAl 10 -3 -1 5和QAl 10 -4-4五种材料试件 ,分别测定了它们在NaCl溶液中的腐蚀电位及与QAl 9-2偶接时的电偶腐蚀电流的变化 。
补充资料:电解腐蚀
分子式:
分子量:
CAS号:
性质:见电解浸蚀。
分子量:
CAS号:
性质:见电解浸蚀。
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