Surface Modification of Aluminum Using a Combined Technique of Barrel Nitriding and Plasma Nitriding

Okumiya, Masahiro; Yoshida, Minoru; Ichiki, Ryuta; Tekmen, Ç.; Khalifa, Waleed; Tsunekawa, Yoshiki; Tanaka, Koshi

doi:10.1002/ppap.200930705

Cited by 9 publications

(6 citation statements)

References 13 publications

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“…A barrel tank was used for surface nitriding of aluminum substrates. Details of the nitriding system have been reported previously 6,7) . The barrel tank used in this study was octagonal, as shown in Fig.…”

Section: Methodsmentioning

confidence: 99%

Formation of Aluminum Nitride Films by Gas Nitriding

Yoshida

Zhou

Utsumi

2014

KEM

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In this study, aluminum alloys were subjected to nitriding at 823 K for 0–18.0 ks using alumina and magnesium powders for improving their radiation performance. After nitriding, aluminum nitride films were formed on the aluminum substrate. The thickness of the formed films varied from 1.5 to 11 μm, and the color of the film surface was dark brown or black. The thickness of the aluminum nitride film increased with an increase in the treatment time. X-ray diffraction and electron probe microanalysis results showed that the film was composed of aluminum nitride, alumina, aluminum, and magnesium. Further, the film showed good adhesion at 0 ks.

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Section: Methodsmentioning

confidence: 99%

Formation of Aluminum Nitride Films by Gas Nitriding

Yoshida

Zhou

Utsumi

2014

KEM

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“…The nitrogen then diffuses onto the surface of the material creating nitride layer [2]. Nitriding an aluminum surface is very hard due to the thin oxide layer existing on the surface which keeps the dispersion of nitrogen into the aluminum substrate making it a slowly process [7]. Gas pressure did not have any significant effect to the thickness of layer as thickness remains constant if the gas pressure increases [8].…”

Section: Literature Reviewmentioning

confidence: 99%

“…Gas pressure did not have any significant effect to the thickness of layer as thickness remains constant if the gas pressure increases [8]. Aluminum has no diffusion zone like other metal [7]. Aluminum surface will change from metallic silver to dark gray or shiny black after nitriding due to the formation of aluminum nitride layer on the surface [9].…”

Section: Literature Reviewmentioning

confidence: 99%

A Study on the Effects of Gas Nitriding on Aluminum 6061 for Automotive Engine Application

2018

J. Appl. Sci. Res.

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“…Okumiya et al Combined barrel nitriding and plasma nitriding, a bilayer aluminum nitride on aluminum can be produced [11]. Khan et al studied nitriding of aluminum alloy in nitrogen and nitrogen-helium mixture using a 100 Hz-pulsed DC glow discharge.…”

Section: Introductionmentioning

confidence: 99%

Improvement of Erosion Resistance of Aluminum- Copper Alloy Type 2024 by Plasma Nitriding

Maseekh¹,

Ataiwi²,

Dawood³

2022

ETJ

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 Samples from the aluminum-copper alloy 2024 were prepared to study the improvement of the erosion resistance of this alloy.  A full thermal annealing treatment was performed.  Plasma nitriding was performed as a surface treatment.  Microstructure examinations (SEM, XRD), erosion, and hardness tests were carried out after each treatment, and comparing the results.To increase the erosion resistance of 2024 Al alloys, plasma nitriding surface treatment was used. Nitrogen and argon gases are injected into an evacuated chamber until the pressure reaches 15 Pa. The process requirements for normal plasma nitriding were heating at 440˚C for 8 hours, low voltage of 650 V, current of 25 mA, low gas consumption, and no air pollution. A continuous nitriding layer of AlN was formed. The microhardness reached a maximum value of 170 HV, about 3 times higher than that Al melts at, is transported upward through voids and capillaries in the AlN structures, and reacted with N plasma in the melt surface. The growth of the AlN structures promotes this transport of un-nitride alloy subjected to the same heat treatments. As a result, the erosion rate of the nitrided samples decreased by 10% when compared to the ones that are not nitrided.

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Surface Modification of Aluminum Using a Combined Technique of Barrel Nitriding and Plasma Nitriding

Cited by 9 publications

References 13 publications

Formation of Aluminum Nitride Films by Gas Nitriding

Formation of Aluminum Nitride Films by Gas Nitriding

A Study on the Effects of Gas Nitriding on Aluminum 6061 for Automotive Engine Application

Improvement of Erosion Resistance of Aluminum- Copper Alloy Type 2024 by Plasma Nitriding

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