Corrosion-Resistance of MAO-Coatings on Al-Si Alloys

Dudareva, N. Yu.; Abramova, Marina M.; Kalschikov, R. V.

doi:10.4028/www.scientific.net/msf.870.83

Cited by 2 publications

(1 citation statement)

References 5 publications

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“…The technology of microarc oxidation (MAO) is becoming increasingly popular in industry at this time [1,2]. This method allows the formation of modified surface layers with a unique combination of properties: high wear resistance, corrosion resistance and heat resistance [3,4]. The wear resistance and corrosion resistance of MAO coatings are well studied nowadays.…”

Section: Introductionmentioning

confidence: 99%

Method for determining of the coatings thermophysical properties formed by the microarc oxidation

2019

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In this work are determined the thermophysical parameters (coefficient of thermal conductivity, thermal diffusivity and heat capacity) of a coating formed by the microarc oxidation (MAO) method on an aluminum alloy AK12D. A method for determining the thermal properties of the MAO layers was developed and verified. The technique is based on measuring the thermal conductivity of the layer by pulsed laser heating and calculating its heat capacity and density based on the data of layer-by-layer phase analysis taking into account the volume porosity. The method allows to calculate the thermophysical parameters whose values differ from the experimental no more than 2.2% in thermal conductivity and no more than 7.0% for heat capacity. In accordance with the proposed method, it was found that the MAO layer on AK12D alloy has a low thermal conductivity of ~ 1.57 W/(m·K) at 100 °C.

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Section: Introductionmentioning

confidence: 99%

Method for determining of the coatings thermophysical properties formed by the microarc oxidation

2019

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A review of process characteristics of plasma electrolytic oxidation of aluminium alloy

Jadhav

Bongale

Kumar

2021

J. Phys.: Conf. Ser.

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The Plasma Electrolytic Method of Oxidation (PEMO ) is proved powerful for producing the wear and corrosion-resistant coating of the oxide layer for exclusive applications. This technique is having a better capability for industrial use for growing proactive coatings on material like Aluminium, Magnesium, Titanium for diverse application of lightweight and high temperature requirements applications. The paper consists of review of papers primarily based on the surface modification amendment method of plasma arc oxidation of aluminium and its alloy. Because the process characterized by the discharge generated by electrode, electrolyte composition and oxide coating morphology which might be crucial component for effectiveness of the technique. The purpose of the paper is to write the systematic review for electrodes, electrolyte compositions, and its effect in improving the characteristics of aluminium alloys. There is a large scope for enhancing the method and monitoring the electric parameters of PEMO for massive applications in regions of automotive wherein the modification in surfaces can replace the components by the lightweight aluminium alloy material. The attempt is made to pick the key elements inside the technique. The scope of designing numerous optimization algorithms and analytical modelling is a key area for further research which can help to screen the technique extra precisely to get an optimized coating microstructure.

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Corrosion-Resistance of MAO-Coatings on Al-Si Alloys

Cited by 2 publications

References 5 publications

Method for determining of the coatings thermophysical properties formed by the microarc oxidation

Method for determining of the coatings thermophysical properties formed by the microarc oxidation

A review of process characteristics of plasma electrolytic oxidation of aluminium alloy

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