Effect of rare earth Y2O3 on the corrosion and friction properties of Al2O3 ceramic coatings prepared via microarc oxidation

This paper describes an investigation of nano-Al2O3 powders reinforced ceramic coatings, which has included NiCrAl and Al2O3+13%wt.TiO2 coats pre-produced by atmosphere plasma spraying, implemented by laser sintering. Commercial NiCrAl powders were plasma sprayed onto 45 Steel substrates to give a bond coat with thickness of ∼100μm. The 600μm thick Al2O3+13%wt.TiO2 based coating was also plasma sprayed on top of the NiCrAl bond coat. With 2.5kw continuous wave CO2 laser, nano-Al2O3 ceramic powders were laser sintered on the based Coatings. The micro structure and chemical composition of the modified Al2O3+13%wt.TiO2 coatings were analyzed by such detection devices as scanning electronic microscope (SEM) and x-ray diffraction (XRD). Microhardness, wear resistance and corrosion resistance of the modified coatings were also tested and compared with that of the unmodified. The results show that the crystal grain size of Al2O3 had no obvious growth. In addition, due to the nanostructured Al2O3 ceramic phases, the coatings exhibited higher microhardness, better wear resistance and corrosion resistance than those unmodified counterparts. The complex process of plasma spraying with laser sintering as a potential effective way of the application of ceramic nano materials was also simply discussed and summarized in the end.

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Effect of Duty Cycle on Properties of Al2O3 Ceramic Coatings Fabricated on TiAl Alloy via Cathodic Plasma Electrolytic Deposition

Materials ◽

10.3390/ma11101962 ◽

2018 ◽

Vol 11 (10) ◽

pp. 1962 ◽

Cited By ~ 1

Author(s):

Shaoqing Wang ◽

Faqin Xie ◽

Xiangqing Wu ◽

Jixiang An

Keyword(s):

Electron Microscopy ◽

Wear Resistance ◽

Heat Resistance ◽

Duty Cycle ◽

Tial Alloy ◽

Ceramic Coatings ◽

Electrolytic Deposition ◽

Al2o3 Ceramic ◽

Cathodic Plasma ◽

Plasma Electrolytic

In order to study the effect of duty cycle during the cathodic plasma electrolytic deposition (CPED) process, Al2O3 ceramic coatings were fabricated via the CPED technique on prepared TiAl alloy in an Al(NO3)3 electrolyte with different duty cycles. Microstructure, morphology, and chemical compositions of coatings were analyzed by scanning electron microscopy (SEM), energy-dispersive spectroscopy (EDS), transmission electron microscopy (TEM), and X-ray diffraction (XRD). The mechanical properties, such as thickness, hardness, and binding strength, were also characterized, and heat-resistance and wear-resistance tested. The results indicated that duty cycle mainly affected the relative crystallinity of CPED coatings. As the duty cycle increased, the crystallinity of CPED coatings increased, the content of Al(OH)3 and γ-Al2O3 decreased, and the content of α-Al2O3 increased. The thickness and bonding strength both increased firstly and then decreased, while hardness increased as duty cycle increased. Heat-resistance and wear-resistance of TiAl alloy with CPED coating was highly improved compared to that of TiAl alloy substrate without CPED coating.

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Effects of additives in electrolyte on characteristics of ceramic coatings formed by microarc oxidation

Surface Engineering ◽

10.1179/026708499101516425 ◽

1999 ◽

Vol 15 (2) ◽

pp. 109-111 ◽

Cited By ~ 20

Author(s):

Y.K. Wang ◽

L. Sheng ◽

R.Z. Xiong ◽

B.S. Li

Keyword(s):

Microarc Oxidation ◽

Ceramic Coatings

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Effect of Anodic Current Density on Characteristics and Low Temperature IR Emissivity of Ceramic Coating on Aluminium 6061 Alloy Prepared by Microarc Oxidation

Journal of Ceramics ◽

10.1155/2013/350931 ◽

2013 ◽

Vol 2013 ◽

pp. 1-14 ◽

Cited By ~ 8

Author(s):

Mohannad M. S. Al Bosta ◽

Keng-Jeng Ma ◽

Hsi-Hsin Chien

Keyword(s):

Surface Roughness ◽

Current Density ◽

Ceramic Coating ◽

Microarc Oxidation ◽

Ceramic Coatings ◽

Anodic Current Density ◽

Ceramic Surface ◽

Anodic Current ◽

Alumina Phase ◽

Current Densities

High emitter MAO ceramic coatings were fabricated on the Al 6061 alloy, using different bipolar anodic current densities, in an alkali silicate electrolyte. We found that, as the current density increased from 10.94 A/dm2 to 43.75 A/dm2, the layer thickness was increased from 10.9 μm to 18.5 μm, the surface roughness was increased from 0.79 μm to 1.27 μm, the area ratio of volcano-like microstructure was increased from 55.6% to 59.6%, the volcano-like density was decreased from 2620 mm−2 to 1420 mm−2, and the γ-alumina phase was decreased from 66.6 wt.% to 26.2 wt.%, while the α-alumina phase was increased from 3.9 wt.% to 27.6 wt.%. The sillimanite and cristobalite phases were around 20 wt.% and 9 wt.%, respectively, for 10.94 A/dm2 and approximately constant around 40 wt.% and less than 5 wt.%, respectively, for the anodic current densities 14.58, 21.88, and 43.75 A/dm2. The ceramic surface roughness and thickness slightly enhanced the IR emissivity in the semitransparent region (4.0–7.8 μm), while the existing phases contributed together to raise the emissivity in the opaque region (8.6–16.0 μm) to higher but approximately the same emissivities.

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Method of applying protective and electrical insulating ceramic coatings by microarc oxidation under overpressure conditions

NOVYE OGNEUPORY (NEW REFRACTORIES) ◽

10.17073/1683-4518-2019-5-109-111 ◽

2019 ◽

Vol 1 (5) ◽

pp. 109-111

Author(s):

M. A. Markov ◽

B. V. Farmakovsky ◽

A. V. Krasikov ◽

A. D. Bykova ◽

S. N. Perevislov ◽

...

Keyword(s):

Microarc Oxidation ◽

Ceramic Coatings ◽

Electrolytic Deposition

The results of the development of the technology of electrolytic deposition of protective and electrical insulating ceramic coatings are presented. The developed technology consists in the combination of microarc oxidation with the imposition of overpressure in a closed autoclave with the introduction of nanoparticles into the probe of the formation of coatings.

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Improved corrosion resistance of Al2O3 ceramic coatings on AZ31 magnesium alloy fabricated through cathode plasma electrolytic deposition combined with surface pore-sealing treatment

Ceramics International ◽

10.1016/j.ceramint.2018.05.159 ◽

2018 ◽

Vol 44 (13) ◽

pp. 15192-15199 ◽

Cited By ~ 13

Author(s):

Ruonan Ji ◽

Minyu Ma ◽

Yuntao He ◽

Chenxu Liu ◽

Tao Fang ◽

...

Keyword(s):

Corrosion Resistance ◽

Magnesium Alloy ◽

Ceramic Coatings ◽

Az31 Magnesium Alloy ◽

Electrolytic Deposition ◽

Cathode Plasma ◽

Al2o3 Ceramic ◽

Pore Sealing ◽

Plasma Electrolytic ◽

Sealing Treatment

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Effect of oxidation time on the microstructure and properties of ceramic coatings prepared by microarc oxidation on 7A04 superhard aluminum alloy

International Journal of Modern Physics B ◽

10.1142/s021797921744026x ◽

2017 ◽

Vol 31 (16-19) ◽

pp. 1744026

Author(s):

Feng Xiao ◽

Hui Chen ◽

Jingguo Miao ◽

Juan Du

Keyword(s):

Aluminum Alloy ◽

Microarc Oxidation ◽

Ceramic Coatings ◽

Ceramic Layer ◽

X Ray Diffraction ◽

Oxidation Treatment ◽

X Ray ◽

Metallurgical Bonding ◽

Dense Ceramic ◽

Morphology Of Surface

Under the sodium aluminates’ system, microarc oxidation treatment was conducted on the superhard aluminum alloy 7A04 for different times. The microstructure of microarc oxidation ceramic layer was investigated by using scanning electron microscopy (SEM) and X-ray diffraction (XRD). The influences of different oxidation times on the adhesion strength of ceramic layer and substrate, the morphology of surface and cross-section, the phase composition and the electrochemical properties were studied. The results indicated that the connection of the coating and substrate appears to be metallurgical bonding and dense ceramic layer, and the surface is in a “volcanic vent” morphology, which is composed of [Formula: see text]-Al2O3 and little [Formula: see text]-Al2O3. The corrosion resistance of ceramic layer is improved significantly in contrast with that of the substrate.

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Influences of Gradient Structure on the Impact Resistance of Al2O3 Ceramic Coatings

Journal of Mechanical Engineering ◽

10.3901/jme.2012.21.124 ◽

2012 ◽

Vol 48 (21) ◽

pp. 124

Author(s):

Xiyun CHENG

Keyword(s):

Impact Resistance ◽

Ceramic Coatings ◽

Gradient Structure ◽

Al2o3 Ceramic ◽

The Impact

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Corrosion-Resistant Ceramic Coatings that are Promising for Use in Liquid Metal Environments

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.822.752 ◽

2019 ◽

Vol 822 ◽

pp. 752-759

Author(s):

M.A. Markov ◽

Aleksandr D. Kashtanov ◽

Aleksei V. Krasikov ◽

A.D. Bykova ◽

Dmitry A. Gerashchenkov ◽

...

Keyword(s):

Liquid Metal ◽

Structural Characteristics ◽

Microarc Oxidation ◽

Ceramic Coatings ◽

Corrosion Resistant ◽

Metal Products ◽

Multilayer Ceramic ◽

Molten Lead ◽

Aggressive Liquid ◽

Resistant Ceramic

This Article Presents the Results of the Development of Multilayer Ceramic Coatings to Protect Metal Products from Corrosion in Aggressive Liquid Metal Environments. the Development is Based on the Integrated Use of Low-Temperature Heterophase Transfer and Microarc Oxidation Methods. the Results of Corrosion Tests of Coatings in the Interaction with Molten Lead in the Temperature Range of 400-600°C are Presented. the Structural Characteristics of the Coatings are Considered.

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