Surface Hardness Measurement of Anodic Oxide Films on AA2024 based an Ink-Impregnation Method

This paper is concerned with type of imperfections present within the anodic oxide films on AA2024 and surface hardness of the anodic film measured after ink-impregnation. The anodic oxide films were formed for 25 min at 40 mA/cm2 and 15±0.5 ℃ and 300 rpm of magnet stirring rate in 20% sulfuric acid...

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Published inBiuletyn Uniejowski Vol. 53; no. 2; pp. 80 - 86
Main Authors Sungmo Moon, Jong-joo Rha
Format Journal Article
LanguageEnglish
Published 한국표면공학회 01.04.2020
Subjects
기계공학
Surface hardness
ink-impregnation method
anodic oxide film
AA2024
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ISSN1225-8024
2299-8403
2288-8403

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Abstract This paper is concerned with type of imperfections present within the anodic oxide films on AA2024 and surface hardness of the anodic film measured after ink-impregnation. The anodic oxide films were formed for 25 min at 40 mA/cm2 and 15±0.5 ℃ and 300 rpm of magnet stirring rate in 20% sulfuric acid solution. The ink-impregnation allows clear observations of not only the imperfections within the anodic oxide films but also an indentation mark on the oxide film surface made by a pyramidal-diamond penetrator for the hardness measurement. There were observed four different regions in the anodic oxide films on AA2024 and the surface hardness of the anodic oxide films appeared to be crucially dependent on the type of defects, showing 60 ~ 100 Hv on the oxide surface region I with large size black defect, 100 ~ 140 Hv on the oxide surface region II with large size grey defect, 140 ~ 170 Hv on the oxide surface region III with mall size black and/or grey defects and 170 ~190 Hv on the oxide surface region IV without defects. The pyramidal indentation marks were observed to be distorted in the regions with a large size black and grey defects, while no distortion of the indentation mark was observed in the regions with small size defects and without visible defects. KCI Citation Count: 1
AbstractList This paper is concerned with type of imperfections present within the anodic oxide films on AA2024 and surface hardness of the anodic film measured after ink-impregnation. The anodic oxide films were formed for 25 min at 40 mA/cm2 and 15±0.5 ℃ and 300 rpm of magnet stirring rate in 20% sulfuric acid solution. The ink-impregnation allows clear observations of not only the imperfections within the anodic oxide films but also an indentation mark on the oxide film surface made by a pyramidal-diamond penetrator for the hardness measurement. There were observed four different regions in the anodic oxide films on AA2024 and the surface hardness of the anodic oxide films appeared to be crucially dependent on the type of defects, showing 60 ~ 100 Hv on the oxide surface region I with large size black defect, 100 ~ 140 Hv on the oxide surface region II with large size grey defect, 140 ~ 170 Hv on the oxide surface region III with mall size black and/or grey defects and 170 ~190 Hv on the oxide surface region IV without defects. The pyramidal indentation marks were observed to be distorted in the regions with a large size black and grey defects, while no distortion of the indentation mark was observed in the regions with small size defects and without visible defects. KCI Citation Count: 1
Author Sungmo Moon
Jong-joo Rha
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Keywords Surface hardness
ink-impregnation method
anodic oxide film
AA2024
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Title Surface Hardness Measurement of Anodic Oxide Films on AA2024 based an Ink-Impregnation Method
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