Oxidation Resistance and Modification Reaction Mechanism of Al Coating Sprayed on Pure Ti Substrate

Jia, Quanli; Li, Deyuan; Guan, Sheng; Zhang, Zhuang; Zhang, Nannan; Zhao, Wanhua

doi:10.1155/2018/1403521

Cited by 3 publications

(1 citation statement)

References 20 publications

(19 reference statements)

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“…ese laminated plates not only had the titanium alloy's advantages of high-temperature resistance, corrosion resistance, and high specific strength but also had the aluminum alloy's characteristics of low price, good conductivity, and thermal conductivity. It was a kind of layered composite with excellent comprehensive properties, which had good comprehensive application value and development prospect [13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Theoretical Analysis and Experimental Research into the Mechanical Properties of Al‐Ti‐Al Symmetrical Laminated Plate

Yang

et al. 2020

Advances in Materials Science and Engineering

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In order to have both the surface corrosion resistance of aluminum alloy and the high specific strength characteristics of titanium alloy, titanium alloy TC4, and aluminum alloy 6061 can be used to make aluminum-titanium-aluminum (Al-Ti-Al) three-layer laminated plate by hot rolling. In this paper, the classical laminated plate theory was used to calculate the stiffness, specific stiffness, strength, and specific strength of the laminated plate. The results showed that when the coating rate of titanium alloy TC4 was 0.5, bending specific stiffness and bending specific strength were the minimum, but all other parameters increased with the increase of the coating rate of titanium alloy TC4. Therefore, in actual production, the coating rate of titanium alloy should be avoided being 0.5. Then, the rolling experiments of the Al-Ti-Al laminated plate were carried out with different temperatures, reduction rates, and thickness ratios. Finally, the tensile test and energy spectrum analysis of the laminated plate were carried out. The results showed that, with the increase of rolling temperature, the tensile strength, the extensibility, and the thickness of the diffusion layer increased; if the coating rate of titanium alloy TC4 was between 0.2 and 0.33, the mechanical properties, the bonding strength, and the thickness of the diffusion layer increased with the increase of the coating rate of titanium alloy TC4.

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Section: Introductionmentioning

confidence: 99%

Theoretical Analysis and Experimental Research into the Mechanical Properties of Al‐Ti‐Al Symmetrical Laminated Plate

Yang

et al. 2020

Advances in Materials Science and Engineering

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Corrosion behavior of the resistance sintered TiAl based intermetallics induced by two different molten salt mixture

Garip

Özdemir

2020

Corrosion Science

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High-temperature oxidation behavior of CeO₂-doped MAO coatings on TC4 titanium alloy

Chen

Cai

Zhang

et al. 2023

Surface Innovations

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To improve the surface micropores and high-temperature oxidation resistance of micro-arc oxidation (MAO) coating on TC4 titanium alloy, cerium dioxide (CeO2) particles were introduced into the electrolyte to prepare MAO composite coatings with different CeO2 content. X-ray diffractometer, scanning electron microscope and multifunctional material surface performance tester were used to analyze the phase composition, surface morphology and bonding force of the samples. TC4 substrate, undoped MAO sample and optimally doped MAO sample were oxidized at 650°C, 750°C and 850°C respectively. The results show that the best doped MAO samples show excellent high-temperature oxidation resistance at three temperatures. Compared with the undoped MAO sample, the maximum oxidation weight gain per unit area of the optimally doped MAO sample decreased by 10.8%, 19.6% and 22.1%, respectively. This is mainly because the thickness, hardness and adhesion of MAO coating are all increased by doping CeO2 particles, and a dense protective layer can also be formed on the surface of TC4 substrate. The invasion of oxygen medium is effectively prevented. In this research work, the optimal addition amount of CeO2 is 6 g/L.

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Oxidation Resistance and Modification Reaction Mechanism of Al Coating Sprayed on Pure Ti Substrate

Cited by 3 publications

References 20 publications

Theoretical Analysis and Experimental Research into the Mechanical Properties of Al‐Ti‐Al Symmetrical Laminated Plate

Theoretical Analysis and Experimental Research into the Mechanical Properties of Al‐Ti‐Al Symmetrical Laminated Plate

Corrosion behavior of the resistance sintered TiAl based intermetallics induced by two different molten salt mixture

High-temperature oxidation behavior of CeO₂-doped MAO coatings on TC4 titanium alloy

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Oxidation Resistance and Modification Reaction Mechanism of Al Coating Sprayed on Pure Ti Substrate

Cited by 3 publications

References 20 publications

Theoretical Analysis and Experimental Research into the Mechanical Properties of Al‐Ti‐Al Symmetrical Laminated Plate

Theoretical Analysis and Experimental Research into the Mechanical Properties of Al‐Ti‐Al Symmetrical Laminated Plate

Corrosion behavior of the resistance sintered TiAl based intermetallics induced by two different molten salt mixture

High-temperature oxidation behavior of CeO2-doped MAO coatings on TC4 titanium alloy

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Product

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High-temperature oxidation behavior of CeO₂-doped MAO coatings on TC4 titanium alloy