学位论文详细信息
Investigating the functionalisation of poly-ether-ether-ketone surfaces through the application of surface texturing for friction and wear control within all polymeric joint prosthesis
T Technology > TJ Mechanical engineering and machinery
Harris, Christopher William ; Dearn, Karl
University:University of Birmingham
Department:School of Mechanical Engineering
关键词: T Technology;    TJ Mechanical engineering and machinery;   
Others  :  http://etheses.bham.ac.uk//id/eprint/9171/7/Harris2019PhD.pdf
来源: University of Birmingham eTheses Repository
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【 摘 要 】
This thesis investigates the application of surface textures applied to an un-filled poly-ether-ether-ketone (PEEK) surface via laser ablation for the purpose of friction and wear control. Surface functionalisation was demonstrated by the manipulation of surface characteristics via texturing. Improving surface wettability characteristics showed that increasing surface hydrophilicity improved the surfaces’ friction and wear performance.Within durability tests a novel approach, in the form of acoustic emissions (AE), was employed to monitor tribological activity within an all PEEK sliding couple. AE output was correlated with individual strokes throughout the test and the magnitude and frequency of the captured AE signal was used to ascertain an understanding of tribological phenomena occurring within the tribo-system. Texture parameters were investigated, showing a diameter/depth combination of 50µm and 20µm respectively were optimum for friction reduction when dispersed over the surface at a density of 20%. Friction reduction for textured surfaces was attributed, in part, to the generation of hydro-dynamic lift.To verify hydrodynamic behavior, the system was modeled using the Reynolds equation, and the viscous friction was computed and compared to empirical results. Good agreement across diameters and aspect ratio were captured however, the depth showed to vary considerably for shallower pores of smaller diameter.Durability tests, showed that a textured surface outperformed an un-textured surface by 3 times. The primary mechanism contributing to the low friction and wear of textured surfaces was the retention of fluid within the contact zone and the reduction in abrasive wear particles through the wear trapping capabilities of the textured pores.
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