Nanotribological Properties of Poly(ether ketone ketone) (PEKK) and Sulfonated Poly(ether ketone ketone) (S-PEKK) Thin Films

Abstract: An atomic force microscope (AFM) was used to determine the nanotribological properties of poly(ether ketone ketone) (PEKK) and sulfonated poly(ether ketone ketone) (S-PEKK) thin films, by sliding the AFM tip on the polymer surfaces and stepwise increasing the loading forces on the cantilever. For comparison, a polystyrene (PS) film with surface roughness comparable to those of the PEKK and S-PEKK was also examined using the same procedure. It was found that the S-PEKK film exhibits much higher values of both t… Show more

“…As the size of engineering devices moves toward miniaturization, understanding of surface properties is critical, and control of tribological performance such as friction and wear is of particular importance for devices containing moving parts. Nanotribological behavior of polymers29, 30 and polymer blend systems31 has been reported. However, to develop a more comprehensive understanding of tribology of filled polymer composites at the nanoscale surface regime, studies exploring nanoscale surface friction in conjunction with quasi‐static and dynamic nanomechanical behavior are needed.…”

POSS‐nylon 6 nanocomposites: Influence of POSS structure on surface and bulk properties

“…As the size of engineering devices moves toward miniaturization, understanding of surface properties is critical, and control of tribological performance such as friction and wear is of particular importance for devices containing moving parts. Nanotribological behavior of polymers29, 30 and polymer blend systems31 has been reported. However, to develop a more comprehensive understanding of tribology of filled polymer composites at the nanoscale surface regime, studies exploring nanoscale surface friction in conjunction with quasi‐static and dynamic nanomechanical behavior are needed.…”

POSS‐nylon 6 nanocomposites: Influence of POSS structure on surface and bulk properties

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Formation of nanoporous poly(aryl amide ether) (PAAE) films by selective removal of poly(ethylene glycol) (PEG) from PEG/PAAE composite films