Influence of anodization parameters on film thickness and volume expansion of thick- and large-sized anodic aluminum oxide film

Pu, Yuanjing; Hu, Jiajun; Yao, Taicang; Li, Linfeng; Zhao, Jie; Guo, Yu

doi:10.1007/s10854-021-05948-w

Cited by 9 publications

(4 citation statements)

References 24 publications

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“…However, at 16 V, the surface film on the Al 6 (Fe, Mn) was thinner than the one formed at 8 V. Oxide films formed on pure Al and Al alloys exhibit dielectric properties. 50 Moreover, it is known that the surface film thickens with increasing applied anodizing voltage to approximately 100 V. [51][52][53] However, at higher anodizing voltages, surface oxide films formed on Alcontaining IMPs reportedly exhibit nanoporous structures, [54][55][56][57] which may be why the oxide film did not systematically thicken on the Al 6 (Fe, Mn) surface. This suggests that a film thicker than 170 nm is required for Al 6 (Fe, Mn) to prevent the galvanic corrosion of the AA5083.…”

Section: Resultsmentioning

confidence: 99%

Galvanic Corrosion of AA5083/Fe in Diluted Synthetic Seawater: Effect of Anodizing on Local Electrochemistry on and around Al_₆(Fe,Mn) on Al-Matrix

Kosaba

Muto

Sugawara

2022

J. Electrochem. Soc.

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In 100-times diluted synthetic seawater at 298 K (pH 8.2), the effect of anodizing on the galvanic corrosion resistance of AA5083 coupled to pure Fe, Type 430, or 304 stainless steel was investigated by measuring the galvanic current densities and electrode potentials. Anodizing in H2SO4 effectively suppressed the galvanic corrosion of AA5083. It was shown that an increase in pitting potential by anodizing alone could not determine whether galvanic corrosion would occur or not. The cathodic activity on Al6(Fe, Mn), which causes alkalization on and around Al6(Fe, Mn) particles, decreased as the anodizing time and voltage increased and the anodic oxide film on the Al-matrix in alkaline environments became stable as the thickness of the oxide film increased. A comparison of these two factors revealed that the dissolution resistance of surface oxide film on Al-matrix contributed the galvanic corrosion prevention of anodized AA5083 coupled to pure Fe. In the case of AA5083 anodized at 16 V for 180 s, no galvanic corrosion damage was observed on the AA5083 coupled to Type 430 or 304.

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Section: Resultsmentioning

confidence: 99%

Galvanic Corrosion of AA5083/Fe in Diluted Synthetic Seawater: Effect of Anodizing on Local Electrochemistry on and around Al_₆(Fe,Mn) on Al-Matrix

Kosaba

Muto

Sugawara

2022

J. Electrochem. Soc.

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“…The anodization process allows for the fabrication of Al2O3 as parallel nanopores [64] that are perpendicular to the Al surface. The geometrical properties of hexagonal cells in AAO, i.e., pore diameter and height and the interpore distance, can be controlled by applying different process conditions like the electrolyte and its concentration [65][66][67], temperature [68][69][70], voltage [71][72][73], and duration of the anodization [74,75]. The two-step anodization process produces an AAO matrix with nanoconical pores.…”

Section: Deposition In Prepared Substratesmentioning

confidence: 99%

Nanocones: A Compressive Review of Their Electrochemical Synthesis and Applications

Skibińska,

Żabiński

2024

Materials

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The development in the field of nanomaterials has resulted in the synthesis of various structures. Depending on their final applications, the desired composition and therefore alternate properties can be achieved. In electrochemistry, the fabrication of bulk films characterized by high catalytic performance is well-studied in the literature. However, decreasing the scale of materials to the nanoscale significantly increases the active surface area, which is crucial in electrocatalysis. In this work, a special focus is placed on the electrodeposition of nanocones and their application as catalysts in hydrogen evolution reactions. The main paths for their synthesis concern deposition into the templates and from electrolytes containing an addition of crystal modifier that are directly deposited on the substrate. Additionally, the fabrication of cones using other methods and their applications are briefly reviewed.

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“…These films are most likely anodic due to aluminum alloy can form compact after the electrochemical reaction. These Anodic aluminum oxide (AAO) film with a thickness ranging from 20 to 100 μm [43].…”

Section: Surface Characterization and Morphologymentioning

confidence: 99%

Investigation on the multiple plies structure of aluminum-lithium alloy and glass fiber composite with respect to deformation failure

Qutaba

Asmelash

Azhari

2023

Mater. Res. Express

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: The deformation behavior and mechanical properties based on the aluminum-lithium alloys (FMLs) was investigated to optimize the manufacturing process and further interface interaction. The primary structures of the FML composites were made with two sets of plies. From there, six secondary composites with different fibre sheet orientations were made. Then, interlaminar tensile, flexural, and peeling properties of FMLs were tested. The fiber orientation role in the case of failure behaviors of FMLs under different conditions was also revealed. The results have indicated that the plies design significantly enhanced the interlaminar properties of the FMLs and orientation of fiber laying has significantly affected the flexural strength. The peeling test has shown higher fiber-to-metal interfacial bonding with the value of ≥ 80 N/m2 over metal-to-metal adhesion. The plies increase the mechanical properties of composite based at fiber orientation and thickness, but too much impairs performance. The 3/2 plies showed a value of ≤ 385 MPa which has better results in axial structure analysis as compared to over 4/2 composite layers. The peak values appeared under different parameters like adhesive bonding and parallel fiber orientation represented in the qualitative analysis section. The surface microscopy of aluminum-lithium alloy sheet and cross-section failure morphology of composite has been done at a different sighting. Surface characterization, fiber orientation breakdown and deformation morphology have been studied with respect to alloys' elongated grains and micro pits.

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Influence of anodization parameters on film thickness and volume expansion of thick- and large-sized anodic aluminum oxide film

Cited by 9 publications

References 24 publications

Galvanic Corrosion of AA5083/Fe in Diluted Synthetic Seawater: Effect of Anodizing on Local Electrochemistry on and around Al_₆(Fe,Mn) on Al-Matrix

Galvanic Corrosion of AA5083/Fe in Diluted Synthetic Seawater: Effect of Anodizing on Local Electrochemistry on and around Al_₆(Fe,Mn) on Al-Matrix

Nanocones: A Compressive Review of Their Electrochemical Synthesis and Applications

Investigation on the multiple plies structure of aluminum-lithium alloy and glass fiber composite with respect to deformation failure

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Influence of anodization parameters on film thickness and volume expansion of thick- and large-sized anodic aluminum oxide film

Cited by 9 publications

References 24 publications

Galvanic Corrosion of AA5083/Fe in Diluted Synthetic Seawater: Effect of Anodizing on Local Electrochemistry on and around Al 6 (Fe,Mn) on Al-Matrix

Galvanic Corrosion of AA5083/Fe in Diluted Synthetic Seawater: Effect of Anodizing on Local Electrochemistry on and around Al 6 (Fe,Mn) on Al-Matrix

Nanocones: A Compressive Review of Their Electrochemical Synthesis and Applications

Investigation on the multiple plies structure of aluminum-lithium alloy and glass fiber composite with respect to deformation failure

Contact Info

Product

Resources

About

Galvanic Corrosion of AA5083/Fe in Diluted Synthetic Seawater: Effect of Anodizing on Local Electrochemistry on and around Al_₆(Fe,Mn) on Al-Matrix

Galvanic Corrosion of AA5083/Fe in Diluted Synthetic Seawater: Effect of Anodizing on Local Electrochemistry on and around Al_₆(Fe,Mn) on Al-Matrix