Litcius/Paper detail

The Shearing Behavior of Nanowire Contact Pairs in Air and the Role of Humidity

Tursunay Yibibulla, James L. Mead, Liang Ma, Lizhen Hou, Han Huang, Shiliang Wang

2022physica status solidi (RRL) - Rapid Research Letters10 citationsDOI

Abstract

A new technique based on optical microscope nanomanipulation is developed to permit optical observation of the shearing process between cantilevered nanowires (NWs). Real‐time observation of the deflection shape of NWs during shearing under controlled environmental conditions enables their shear stress evolution to be evaluated with respect to relative humidity (RH). The average static and kinetic shear strengths, and MPa, are found to be insensitive to the RH within the range of 40–60%. When the RH increased to 74%, the shear strength values increase to and MPa. When the RH decreases to 20%, a dramatic increase in the static and kinetic shear strengths is observed: and MPa. Water films absorbed on the surface of NWs within the RH range of 40–60% can lubricate their frictional interface and thus dramatically decrease the shear strength. At high RH of above , the viscous effects of a water meniscus condensed around the contact point between two NWs can significantly enhance the shear strength and dampen stick‐slip behavior. The detachment of two NWs is then controlled by the rupture of a meniscus bridge, leading to high ultimate shear strength value of several tens of MPa.

Topics & Concepts

Materials scienceShearing (physics)Composite materialRelative humidityShear (geology)Shear forceCantileverDeflection (physics)NanowireContact angleOpticsNanotechnologyMeteorologyPhysicsForce Microscopy Techniques and ApplicationsMechanical and Optical ResonatorsAdhesion, Friction, and Surface Interactions