Friction and wear behaviour of implanted AISI 316L SS and comparison with a substrate

“…Latest works expose that microstructure and mechanical properties, such as grain size [12][13][14][15][16], porosity [17], hardness [18,19], fracture toughness [20], have strong effect on abrasive/sliding wear resistance of bulk ceramics and coatings under dry or lubrication circumstances. Among the reduction in the grain size of ceramics, their mechanical properties would be improved [21,22], which is helpful in improving the abrasive/sliding wear resistance of bulk ceramics and coatings [1,18,[12][13][14][15][16][17][18][19][23][24][25].…”

An investigation of different ceramic coating thermal properties

“…Latest works expose that microstructure and mechanical properties, such as grain size [12][13][14][15][16], porosity [17], hardness [18,19], fracture toughness [20], have strong effect on abrasive/sliding wear resistance of bulk ceramics and coatings under dry or lubrication circumstances. Among the reduction in the grain size of ceramics, their mechanical properties would be improved [21,22], which is helpful in improving the abrasive/sliding wear resistance of bulk ceramics and coatings [1,18,[12][13][14][15][16][17][18][19][23][24][25].…”

An investigation of different ceramic coating thermal properties

“…Copper reinforced with fine and uniform Al 2 O 3 dispersoids has shown remarkable thermal and mechanical stability at an elevated temperature as reported by Dogan et al. [8]. They found that the mechanical properties of the composites do not decrease with increasing temperature; moreover, they have good electric conductivity even near the melting point of copper [9].…”

“…The mechanical properties of copper represent the key factor in determining the suitability of the composite materials, especially in applications where the material is subjected to high loads and frictions [7]. Copper reinforced with fine and uniform Al 2 O 3 dispersoids has shown remarkable thermal and mechanical stability at an elevated temperature as reported by Dogan et al [8]. They found that the mechanical properties of the composites do not decrease with increasing temperature; moreover, they have good electric conductivity even near the melting point of copper [9].…”

Al₂O₃ Particle Size Effect on Reinforced Copper Alloys: An Experimental Study

“…Stainless steel (SS) and Ti alloys are widely used as orthopedic implant materials particularly for metal-on-metal contact in hip joints by considering its biocompatible and corrosion properties due to the oxide film formation on its surface [1]. The polymeric materials like ultra-high-molecular-weight polyethylene (UHMWPE), polycarbonates and other materials are also used as implants but due to high wear rate, it can cause the bone resorption and loosening of the replacements [2].…”

Wear behavior of γ-irradiated Ti6Al4V alloy sliding on TiN deposited steel surface