【摘 要】
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Taking advantage of the magnetic field inside transmission electron microscope(TEM),a unique Lorentz-force-actuated method for quantitative friction tests was developed via a commercial electromechanical holder.With this approach,a submicron-sized silver
【机 构】
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Center for Advancing Materials Performance from the Nanoscale(CAMP-Nano)and Hysitron Applied Researc
论文部分内容阅读
Taking advantage of the magnetic field inside transmission electron microscope(TEM),a unique Lorentz-force-actuated method for quantitative friction tests was developed via a commercial electromechanical holder.With this approach,a submicron-sized silver asperity sliding on a tungsten flat punch was actu-ated by Lorentz force due to electrical current through the punch,with the normal force imposed by the built-in transducer of the holder.The friction force was determined by tracking the elastic deflec-tion of the fabricated cantilever from in situ video.Through correlating the friction behavior with the microstructural evolution near the silver-tungsten interface,we revealed that even when the relative motion commenced with the plastic deformation of the silver asperity,the interface can still sustain the further increasing static friction force.Exactly following the arrival of the maximum static friction force,the sliding occurred at the interface,indicating the transition from static to dynamic friction.This work enriches our understanding of the underlying physics of the dynamic friction process for metallic friction behavior.
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