• Title/Summary/Keyword: Aluminum anodizing

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Formation Characteristics of Hard Anodizing Films on 6xxx Aluminum Alloys (6xxx계 알루미늄 합금의 경질 아노다이징 피막 형성 특성 연구)

  • Moon, Sanghyuck;Moon, Sungmo;Lim, Sugun
    • Journal of Surface Science and Engineering
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    • v.52 no.4
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    • pp.203-210
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    • 2019
  • In this work, anodizing behavior of 6xxx series aluminum alloys was studied under constant current density and constant voltage conditions in 20% sulfuric acid solution by V-t curves, I-t curves, thickness measurement, observations of surface appearance and cross-sectional observation of anodizing films. The film growth rate of the anodizing films on Al6063, Al6061 and Al6082 obtained at 20 V were $0.63{\mu}m/min$. $0.46{\mu}m/min$ and $0.38{\mu}m/min$, respectively. Time to the initiation of imperfections at the oxide/substrate interface under constant current condition was shortened and colors of anodizing films became darker with the amount of alloying elements in 6xxx series aluminum alloys. Based upon the experimental results obtained in this work, it is concluded that maximum anodizing film thickness without interfacial defects is reduced with increasing amount of alloying elements and brighter anodizing films can be obtained by decreasing amount of alloying elements in the aluminum alloys.

Fabrication of functional aluminum surface through anodization mode transition (양극산화 모드 전환을 통한 기능성 알루미늄 표면 연구)

  • Park, Youngju;Jeong, Chanyoung
    • Journal of Surface Science and Engineering
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    • v.55 no.6
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    • pp.417-424
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    • 2022
  • This research develops an easy-to-use, environmentally friendly method for fabricating functional 1050 aluminum alloy surfaces with excellent corrosion resistance. Functional aluminum surfaces with various nanostructures are fabricated by controlling the experimental conditions of anodizing process. The experiment used a multi-step anodizing process that alternates between two different anodizing modes, mild anodizing (MA) and hard anodizing (HA), together with a pore-widening (PW) process. Among them, the nanostructured surface with a small solid fraction shows superhydrophobicity with a contact angle of more than 170° after water-repellent coating. In addition, the surface with superhydrophobicity is difficult for corrosive substances to penetrate, so the corrosion resistance is greatly improved.

Corrosion resistance improvement of 6061 aluminum alloy using anodizing process

  • Zuraidawani Che Daud;Muhammad Faidzi Shukri;Mohd Nazree Derman
    • Advances in materials Research
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    • v.13 no.3
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    • pp.195-202
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    • 2024
  • Aluminum alloy is a material that is frequently used in the aerospace and transportation industries due to its high mechanical and corrosion resistance qualities. Unfortunately, aluminum alloys are prone to corrosion, limiting their application in some harsh situations such as when submerged in aqueous environments. The purpose of this study is to investigate how anodizing can increase the corrosion resistance of 6061 Aluminum alloy. The anodizing process was carried out using two different parameters which are voltage (5V, 10V, 15V) and electrolyte sulfuric acid (H2SO4) concentration (0.3M, 0.5M) for 1 hour. The anodized samples were performed using several analyses such as X-ray diffraction (XRD) analysis, morphology analysis, and corrosion test. From this study, it is found that the difference in anodizing parameters affects the corrosion resistance of the samples. Sample anodized at 15V, 0.5M gives the best corrosion resistance.

Anodic Oxidation (양극 산화)

  • 노해용
    • Journal of the Korean Professional Engineers Association
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    • v.33 no.6
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    • pp.16-23
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    • 2000
  • Anodizing processes is the conversion of the aluminum surface to aluminum oxide while the part is the anode in an electrolytic cell. The object of the anodizing was increased corrosion resistant, paint adhesion and was provided unique, decorative colors. Many electrolytes, under different conditions, have been used for the anodic oxidation of alumminum and its alloys. This paper deals with the procedures used in the anodic oxidation of aluminum and its alloys, the nature and properties of the oxide films, their uses and anodizing equipment and process control.

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The formation of highly ordered nano pores in Anodic Aluminum Oxide

  • Im, Wan-soon;Cho, Kyung-Chul;Cho, You-suk;Park, Gyu-Seok;Kim, Dojin
    • Proceedings of the Materials Research Society of Korea Conference
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    • 2003.03a
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    • pp.53-53
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    • 2003
  • There has been increasing interest in the fabrication of nano-sized structures because of their various advantages and applications. Anodic Aluminum Oxide (AAO) is one of the most successful methods to obtain highly ordered nano pores and channels. Also It can be obtained diverse pore diameter, density and depth through the control of anodization condition. The three types of substrates were used for anodization; sheets of Aluminum on Si wafer and Aluminum on Mo-coated Si wafer. In Aluminum sheet, a highly ordered array of nanoholes was formed by the two step anodization in 0.3M oxalic acid solutions at 10$^{\circ}C$ After the anodization, the remained aluminum was removed in a saturated HgCl$_2$ solution. Subsequently, the barrier layer at the pore bottom was opened by chemical etching in phosphoric acid. Finally, we can obtain the through-channel membrane. In these processes, the effect of various parameters such as anodizing voltage, anodizing time, pore widening time and pre-heat treatment are characterized by FE-SEM (HITACH-4700). The pore size. density and growth rate of membrane are depended on the anodizing voltage and temperature respectively. The pore size is proportional to applied voltage and pore widening time The pore density can be controlled by anodizing temperature and voltage.

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Effect of Solution Temperature for Al Alloy Anodizing on Cavitation Characteristics (캐비테이션 특성에 미치는 알루미늄 합금의 양극 산화 용액 온도의 영향)

  • Lee, Seung-Jun;Lee, Jung-Hyung;Kim, Seong-Jong
    • Corrosion Science and Technology
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    • v.14 no.3
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    • pp.140-146
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    • 2015
  • The commercialization of aluminum had been delayed than other metals because of its high oxygen affinity. Anodizing is a process in which oxide film is formed on the surface of a valve metal in an electrolyte solution by anodic oxidation reaction. Aluminum has thin oxide film on surface but the oxide film is inhomogeneous having a thickness only in the range of several nanometers. Anodizing process increases the thickness of the oxide film significantly. In this study, porous type oxide film was produced on the surface of aluminum in sulfuric acid as a function of electrolyte temperature, and the optimum condition were determined for anodizing film to exhibit excellent cavitation resistance in seawater environment. The result revealed that the oxide film formed at $10^{\circ}C$ represented the highest cavitation resistance, while the oxide film formed at $15^{\circ}C$ showed the lowest resistance to cavitation in spite of its high hardness.

Effect of Machining on Hard Anodizing Surface of Aluminum (절삭가공이 알루미늄 경질 아노다이징 피막에 미치는 영향)

  • Kim, Su-Jin;Mun, Jeongil
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.21 no.8
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    • pp.87-92
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    • 2022
  • The Al3003 aluminum plate was cut by grinding, milling, sawing, and shearing, and the hard-anodizing surface of the material was investigated. Large burrs were formed during grinding and milling. The brittle anodized film split and migrated along the deformed aluminum surface. During shearing, the hard-anodized film on the blade entry surface cracks and slides along the deforming aluminum. The cutting heat increased the ductility of the aluminum and further promoted burr formation. The oil-based coolant suppressed burrs and prevented chips from sticking to the endmill. It is better to avoid the high cutting speed and slow material feed rate conditions, which increase the cutting temperature and burr in the band saw.

Improvement of Corrosion Resistance of Aluminum Alloy with Wettability Controlled Porous Oxide films

  • Sakairi, M.;Goyal, V.
    • Corrosion Science and Technology
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    • v.15 no.4
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    • pp.166-170
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    • 2016
  • The combined process of porous type anodizing and desiccation treatment was applied to improve wettability of A1050 aluminum alloy. The water contact angles of anodized samples were increaseds considerably with desiccation treatment. However, there was no considerable effect of polishing and anodizing time on water contact angle. The corrosion behavior with the treatments was investigated electrochemically. The corrosion resistance of the samples in 3.5 mass% NaCl solutions increased with higher contact angle. Anodized and desiccated samples showed better corrosion resistance than un-desiccated samples around rest potential region.