In this study, a novel apparatus was designed and constructed to perform micro‐sliding friction experiments while simultaneously observing the motion of micro‐sized spheres using a vis-ual inspection technique. The apparatus comprises a precision elevation stage that is used to elevate a flat mica disk, with the microspheres on top of it, to bring it into contact with a stationary surface and apply low loads on the contact. During micro‐sliding experiments, it was found that the velocity of the center of the microsphere was half the velocity of the mica disk; in addition, friction force measurements revealed a very low coefficient of friction (about 0.03), indicating the rolling motion of the microspheres. The main outcome of our study was the verification of the hypothesis that spherical particles can be used to avoid direct contact among flat surfaces and can also introduce rolling motion within the system. The pure rolling motion of the microspheres sandwiched between a stationary and a moving flat surface supports the idea of adding rigid spherical particles to oil lubricants to further reduce friction and wear in the system by performing as micro and nanoscale ball bearings.
CITATION STYLE
Alazemi, A. A. (2021). Experimental study of the lubrication mechanism of micro‐spherical solid particles between flat surfaces. Lubricants, 9(8). https://doi.org/10.3390/lubricants9080081
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