Zhaoliang Pi scite author profile

By using molecular dynamics (MD) method, the tensile behavior of ultra-thin ZnO nanowires in <0001 > orientation with three different diameters have been investigated respectively. Through the numerical simulations, the tensile properties including Young’s modulus and yielding stress are obtained as functions of strain rates, temperatures and diameter sizes. The simulation results indicate that the nanowire Young’s modulus and yielding stress would decrease with the increasing of diameter size. In addition, a significant dependence of tensile properties on temperature was also observed with the Young’s modulus and yielding stress decreasing on average by 8% and 18% respectively, while the temperature rises from 0.1 K to 400 K. However, in our simulations the Young’s modulus and yielding stress have no obvious change with different strain rates. Lastly, the structure of ultra-thin ZnO nanowires could be transformed at the strain of ∼7%-11% while the nanowires eventually fracture at the strain of nearly 15%.

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A Novel Spatial and Temporal Context-Aware Approach for Drone-Based Video Object Detection

Lian

Chen

et al. 2019

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Very Low-Resolution Moving Vehicle Detection in Satellite Videos

Jiao

Liu

et al. 2022

IEEE Trans. Geosci. Remote Sensing

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Zhaoliang Pi

VisDrone-VID2019: The Vision Meets Drone Object Detection in Video Challenge Results

VisDrone-VDT2018: The Vision Meets Drone Video Detection and Tracking Challenge Results

Understanding the tensile behaviors of ultra-thin ZnO nanowires via molecular dynamics simulations

A Novel Spatial and Temporal Context-Aware Approach for Drone-Based Video Object Detection

Very Low-Resolution Moving Vehicle Detection in Satellite Videos

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