![]() ![]() Yamaguchi, T., Adachi, K., Ishimine, Y., Kato, K.: Wear mode control of drive tip of ultrasonic motor for precision positioning. Springer, Berlin (2011)ĭong, S., Wang, S., Li, L., Uchino, K.: Frictional noise and noise restraint of the piezoelectric-ultrasonic motor. Zhao, C.: Fundamentals of Tribology and Tribomaterials for Ultrasonic Motors. Qu, J., Sun, F., Zhao, C.: Performance evaluation of traveling wave ultrasonic motor based on a model with visco-elastic friction layer on stator. Rho, J.S., Oh, K.I., Kim, H.S., Jung, H.K.: Characteristic analysis and design of a B-14 rotary ultrasonic motor for a robot arm taking the contact mechanism into consideration. Worn tracks on the surfaces of different polymer materials showed that the dominant wear mechanism transforms from fatigue and abrasion into adhesion with the addition of a dispersed phase delamination was observed in the transfer films, especially those formed by the Ekonol/PTFE and Ekonol/PPS blends. ![]() Curves of hardness and friction coefficient versus the dispersed phase content showed apparent similarities, which indicates that hardness influences the friction of polymer blends in contact with carbon steel. Results showed that the dispersed phases have distinct effects on the impact strength and hardness, as well as friction coefficient and wear rate, of the blends. ![]() The worn surfaces of Ekonol blends were observed using a scanning electron microscope to elucidate the relevant wear mechanisms. The mechanical properties of the blends were investigated, and their tribological performance was tested using a block-on-ring wear meter. Poly(tetrafluoroethylene) (PTFE), poly(etheretherketone), and poly(phylenesulfide) (PPS) were selected as dispersed phases. p-Hydroxybenzoic acid polymer (Ekonol) blends with different compositions, and proportions were prepared through mechanical blending. Blending is an accepted technique for modifying tribological applications. While high friction coefficients and good wear resistance are antagonistic properties of most materials, these properties are expected to promote excellent torque-speed characteristics and extend the life span of ultrasonic motors. ![]()
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