Qi Zhou scite author profile

Qi Zhou

5Publications

24Citation Statements Received

77Citation Statements Given

How they've been cited

How they cite others

118

Affiliations

City University of Hong Kong, Dalian University of Technology, Harbin University of Science and Technology

Publications

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Reconstruction of full-field complex deformed shapes of thin-walled special-section beam structures based on in situ strain measurement

Zhou

Yang

et al. 2020

Advances in Structural Engineering

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This study proposed a method capable of reconstructing complex deformations of thin-walled special-section beam structures subjected to highly coupled loading cases, in terms of the combination of tension/compression, biaxial bending, and warping torsion. The complex beam deformation was decoupled, depending on axial strain measurement strategy on beam surface, and leads to reconstructed full-field displacements (deformed shapes) as the linear superposition of deformations subject to individual loading types. Full-filed strain/stress distributions can then be derived based on the reconstructed displacements. Particular efforts were focused on reconstructing beam deformation subject to warping torsion, where both rotations angles and warping displacements across the beam cross-section and along the beam length were identified precisely. As a proof-of-concept validation, the effectiveness of the method was examined using finite element analysis, where the deformed shape of a thin-walled hat-section beam under the coupling between uniaxial bending and warping torsion was reconstructed., Experiments were conducted subsequently to reconstruct deformation of an aluminum hat-section beam using distributed optical fiber sensors for the measurement of axial strains on the beam surface. The reconstructed full-field deformed shapes of the beam were compared with the three-dimensional displacement signals captured using a non-contact digital image correlation system. The effectiveness of the proposed methodology for complex deformation reconstruction is possible to be extended to a variety of thin-walled beam-type structures which are typical in civil and aerospace engineering, showing potential contributions in fields such as on-line structural health monitoring and active structural control.

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The Resistance–Amplitude–Frequency Effect of In–Liquid Quartz Crystal Microbalance

Huang

Bai

Zhou

et al. 2017

Sensors

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Due to the influence of liquid load, the equivalent resistance of in-liquid quartz crystal microbalance (QCM) increases sharply, and the quality factor and resonant frequency decreases. We found that the change in the resonant frequency of in-liquid QCM consisted of two parts: besides the frequency changes due to the mass and viscous load (which could be equivalent to motional inductance), the second part of frequency change was caused by the increase of motional resistance. The theoretical calculation and simulation proved that the increases of QCM motional resistance may indeed cause the decreases of resonant frequency, and revealed that the existence of static capacitance was the root cause of this frequency change. The second part of frequency change (due to the increases of motional resistance) was difficult to measure accurately, and may cause great error for in-liquid QCM applications. A technical method to reduce the interference caused by this effect is presented. The study contributes to the accurate determination of the frequency and amplitude change of in-liquid QCM caused by liquid load, which is significant for the QCM applications in the liquid phase.

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Experimental study on the stability of plate anchors in clay under cyclic loading

Zhou

Liu

2015

Theoretical and Applied Mechanics Letters

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a b s t r a c tAlthough the bearing capacity of plate anchors in clay has been studied extensively, the results considering the effects of offshore cyclic loading are relatively rare. In the present study, 1 g model tests are carried out to investigate the effect of cyclic loading on the bearing capacity of plate anchors in clay. The ultimate pullout capacity of plate anchors in clay decreases as the accumulated plastic shear strain grows due to the strain-softening of clay under cyclic loading. The load-displacement curves of these tests are presented and the effects of overburden stress and cyclic loading amplitude on the strain-softening behavior are discussed.

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A Dynamic Equilibrium–Based Damage Identification Method Free of Structural Baseline Parameters: Experimental Validation in a Two-Dimensional Plane Structure

Zhou

Cao

et al. 2018

J. Aerosp. Eng.

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Horizontal displacement estimation of high-rise structures by fusing strain and acceleration measurements

Zhou¹,

Li²,

Han³

et al. 2022

Journal of Building Engineering

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Qi Zhou

Reconstruction of full-field complex deformed shapes of thin-walled special-section beam structures based on in situ strain measurement

The Resistance–Amplitude–Frequency Effect of In–Liquid Quartz Crystal Microbalance

Experimental study on the stability of plate anchors in clay under cyclic loading

A Dynamic Equilibrium–Based Damage Identification Method Free of Structural Baseline Parameters: Experimental Validation in a Two-Dimensional Plane Structure

Horizontal displacement estimation of high-rise structures by fusing strain and acceleration measurements

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