Wear performance of commercial polyoxymethylene copolymer and homopolymer injection moulded gears

Polymer gears are an effective solution to lightweighting, which are highly demanded in the automotive industry. Acetal is one of the most widely used polymer gear materials. In this study, two commercial grades of acetal, homopolymer (POM-H) based and copolymer (POM-C) based, were injection moulded into gears with their wear performance compared. Noticeable differences were discovered in failure mechanism, and thermal and mechanical characteristics, which led to a difference in performance prediction. The service life of over two million cycles was expected under a torque up to 10 N m, with POM-H gears having 35% better service life than POM-C. The differences in the properties of POM-H and POM-C should be considered in future industrial applications such as the replacement for metal gears

Phase separation and crystallization in high hard block content polyurethane thin films

Following studies of bulk behavior, the morphological evolution in thin films of linear TPUs with a high content of hard segment (HS) (from 70 to 100 wt %) on annealing is investigated. In contrast to melt-quenched bulk samples, a mixed phase was obtained for as-spin-cast films, and then, on annealing, a phase-separated mesophase domain, as previously observed by scattering and TEM in bulk samples, was observed by AFM to form directly from the mixed phase. In addition to this overall phase behavior, a crystallization behavior unique to thin films was observed: samples of thickness less than 120 nm and annealed at sufficiently high temperature developed large lamellar crystal blocks. Similar crystal blocks have also been found in thin films of a TPU with a more flexible chain extender, although in this case, with the greater HS/SS compatibility of this material, the phase separation behavior was not observed at all