Cu-Based MoS₂-Dispersed Composite Material Formed by the Compression Shearing Method at Room Temperature

Abstract

Cu/MoS₂ composite material was formed by a novel powder-molding technique, which is termed the compression shearing method at room temperature (COSME-RT). Cu/MoS₂ sample mechanical and tribological properties and microstructures were investigated. Samples were prepared using five different MoS₂ concentrations between 0 to 20 vol.%. No unwanted compounds were generated by the Cu and MoS₂ because a high temperature is unnecessary in COSME-RT. Scanning electron microscopy observations confirmed that the MoS₂ particles were dispersed homogeneously in the Cu host matrix. The indentation hardness of Cu/MoS₂ with 0, 1.0 and 5.0 vol.% MoS₂ was higher than 1.6 GPa, and is higher than that formed by conventional powder metallurgy methods and a pure Cu plate. The indentation hardness of the Cu/MoS₂ decreased with increasing MoS₂ concentration. In contrast, the lubricating performance of MoS₂ became more pronounced at 5.0 vol.% or above. The coefficient of friction of Cu/MoS₂ with 5.0, 10 and 20 vol.% MoS₂ was ~0.20, and is the same as for MoS₂ in air. The sample coefficient of friction was maintained because of lubrication by forming a transferred film of wear debris that contained MoS₂. Cu/MoS₂ had a low coefficient of friction, but maintained its material strength at 5.0 vol.% MoS₂.