The Improved Friction Properties of Bonded MoS2 Films by MAO Treating of Al Substrate

Han Jun Hu; Hui Zhou; Yu Gang Zheng; Kai Feng Zhang; Zhi Hua Wan

doi:10.4028/www.scientific.net/AMM.275-277.1911

Paper Titles

Effect of Tungsten Addition on Microstructure and Mechanical Properties of TiAl-Based Alloy
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Analysis on Affecting Factors of Slab Surface Transversal Corner Crack for Medium-Carbon Steel with Boron in Continuous Casting
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Calculation of the Mg-Gd-Y Alloy Equilibrium Phase Diagram and its Verification at 450°C
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Study on the Critical Damage Value and Processing Map of AZ80 Magnesium Alloy Forming at Elevated Temperatures
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The Improved Friction Properties of Bonded MoS2 Films by MAO Treating of Al Substrate
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Mechanical Properties of WC-Co Cemented Carbide Prepared via Vacuum Sintering
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Preparation of Bromine Carbon Alkyd Resin Retardant Coatings for Steel Structure
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Optimized Wire Bonding Process on Micro-Connection Pad with Ni/CeO₂ Coatings
p.1925

Preparation and Hydrogen Storage Kinetics of Nanocrystalline and Amorphous Mg₂Ni-Type Alloys
p.1929

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The Improved Friction Properties of Bonded MoS2 Films by MAO Treating of Al Substrate

Abstract:

The bonded MoS2 films are widely used as solid lubricants in aerospace mechanisms due to their excellent tribological properties. Traditionally, the MoS2 was directly bonded on the Al substrate that was only treated by the technique named of sandblast. For improving the tribological properties of MoS2 films, micro arc oxidation (MAO) instead of sandblast was introduced as a new technique for treating of Al substrate. In this article, the tribological properties of MoS2 films which were bonded on different surface of Al substrate as mentioned above were discussed, respectively. It was concluded from the test results that the MoS2 films bonded on substrate treated by MAO have better tribological properties than those samples treated by sandblast. The endurance life against abrasion of the former is as high as twenty times of the latter by the stand test method of ball on disk using the UMT Multi-Specimen Test System. This test results could be illustrated by the following reasons. The first is the porous microstructures of MAO ceramic coatings on the Al substrate. The coatings have numerous pits to be good at increasing the binding force with the MoS2 films, and the pits can also provide a MoS2 lubricants reservoir during processes of friction. Both of them improved the MoS2 film’s ability of wear-protective. The second is that hardness of the coating is higher than the Al, and this ensures well wearing resistance, especially in practical application to big load-supporting moving parts, such as bearing, gear, etc…