Add to ORKGEffect of electrolyte temperature on the thickness of resulting oxide layer has been studied. Unlike previous published studies this article was aimed to monitor the relationship between electrolyte temperature and resulting AAO layer thickness in interaction with other input factors affecting during anodizing process under special process condition, i.e. lower concentration of sulphuric acid, oxalic acid, boric acid and sodium chloride. According to Design of Experiments (DOE) 80 individual test runs of experiment were carried out. Using statistical analysis and artificial intelligence for evaluation, the computational model predicting the thickness of oxide layer in the range from 5 / μm to 15 / μm with tolerance ± 0,5 / μm was developed
Joule healing of the oxide-covered aluminum electrode is the major heal source during anodizing, and...
The growth of anodic aluminum films on silicon was investigated. The films were formed using an elec...
The article presents the effect of the anodizing parameters, as well as the thermo-chemical treatmen...
Effect of electrolyte temperature on the thickness of resulting oxide layer has been studied. Unlike...
AbstractIn order to optimize the technological process of aluminium anodic oxidation, the possibilit...
In the contribution is evaluated an impact of physical factors of anodizing process, namely the temp...
In order to improve the mechanical properties of the layer deposited by anodic oxidation of aluminum...
The paper investigates the influence of the chemical composition and temperature of electrolyte, the...
The current practice in the field of anodic oxidation of aluminium and its alloys is based mainly on...
The contribution researches and solves the suitability of utilize of electrolyte, consisting of the ...
The results of research on anodizing thin aluminum films 100 nm thick on SiO2–Si plates at 30 V in a...
The effect of composite anodizing electrolyte with reduced content of organic acids on the formation...
The article presents the effect of the anodizing parameters, as well as the thermo-chemical treatmen...
The paper presents a new method for modelling oxide layers for tribology related needs. The most rec...
The pore-filling method is a known process for measuring the porosity of porous anodic oxide layers ...
Joule healing of the oxide-covered aluminum electrode is the major heal source during anodizing, and...
The growth of anodic aluminum films on silicon was investigated. The films were formed using an elec...
The article presents the effect of the anodizing parameters, as well as the thermo-chemical treatmen...
Effect of electrolyte temperature on the thickness of resulting oxide layer has been studied. Unlike...
AbstractIn order to optimize the technological process of aluminium anodic oxidation, the possibilit...
In the contribution is evaluated an impact of physical factors of anodizing process, namely the temp...
In order to improve the mechanical properties of the layer deposited by anodic oxidation of aluminum...
The paper investigates the influence of the chemical composition and temperature of electrolyte, the...
The current practice in the field of anodic oxidation of aluminium and its alloys is based mainly on...
The contribution researches and solves the suitability of utilize of electrolyte, consisting of the ...
The results of research on anodizing thin aluminum films 100 nm thick on SiO2–Si plates at 30 V in a...
The effect of composite anodizing electrolyte with reduced content of organic acids on the formation...
The article presents the effect of the anodizing parameters, as well as the thermo-chemical treatmen...
The paper presents a new method for modelling oxide layers for tribology related needs. The most rec...
The pore-filling method is a known process for measuring the porosity of porous anodic oxide layers ...
Joule healing of the oxide-covered aluminum electrode is the major heal source during anodizing, and...
The growth of anodic aluminum films on silicon was investigated. The films were formed using an elec...
The article presents the effect of the anodizing parameters, as well as the thermo-chemical treatmen...