Wear Dry Behavior of the Al-6061-Al2O3 Composite Synthesized by Mechanical Alloying

Author:

Mercado-Lemus Víctor HugoORCID,Gomez-Esparza Cynthia Daisy,Díaz-Guillén Juan CarlosORCID,Mayén-Chaires JanORCID,Gallegos-Melgar AdrianaORCID,Arcos-Gutierrez HugoORCID,Hernández-Hernández MaricruzORCID,Garduño Isaías Emmanuel,Betancourt-Cantera José AntonioORCID,Perez-Bustamante Raúl

Abstract

The present research deals with the comparative wear behavior of a mechanically milled Al-6061 alloy and the same alloy reinforced with 5 wt.% of Al2O3 nanoparticles (Al-6061-Al2O3) under different dry sliding conditions. For this purpose, an aluminum-silicon-based material was synthesized by high-energy mechanical alloying, cold consolidated, and sintered under pressureless and vacuum conditions. The mechanical behavior was evaluated by sliding wear and microhardness tests. The structural characterization was carried out by X-ray diffraction and scanning electron microscopy. Results showed a clear wear resistance improvement in the aluminum matrix composite (Al-6061-Al2O3) in comparison with the Al-6061 alloy since nanoparticles act as a third hard body against wear. This behavior is attributed to the significant increment in hardness on the reinforced material, whose strengthening mechanisms mainly lie in a nanometric size and homogeneous dispersion of particles offering an effective load transfer from the matrix to the reinforcement. Discussion of the wear performance was in terms of a protective thin film oxide formation, where protective behavior decreases as a function of the sliding speed.

Publisher

MDPI AG

Subject

General Materials Science,Metals and Alloys

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