Y
YuanTong Gu
Researcher at Queensland University of Technology
Publications - 597
Citations - 15277
YuanTong Gu is an academic researcher from Queensland University of Technology. The author has contributed to research in topics: Finite element method & Meshfree methods. The author has an hindex of 52, co-authored 550 publications receiving 12583 citations. Previous affiliations of YuanTong Gu include Nanjing Medical University & National University of Singapore.
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Investigation of the Effects of Extracellular Osmotic Pressure on Morphology and Mechanical Properties of Individual Chondrocyte
TL;DR: In this paper, the porohyperelastic (PHE) model was used to investigate the strain-rate-dependent responses under the loading and osmotic pressure conditions, and the results revealed that the hypo-osmotic external environment increased chondrocyte dimensions and reduced Young's modulus.
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A general Neural Particle Method for hydrodynamics modeling
Jinshuai Bai,Ying Zhou,Yu-Jie Ma,Hyogu Jeong,Hai-yi Zhan,C. M. Rathnayaka,Emilie Sauret,YuanTong Gu +7 more
TL;DR: In this paper , the authors proposed a general Neural Particle Method (gNPM) for viscous hydrodynamics modeling, where a single pressure is output as the predicted pressure field rather than the multiple pressures in the original NPM.
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Steered molecular dynamics characterization of the elastic modulus and deformation mechanisms of single natural tropocollagen molecules
TL;DR: This study will aid in future studies on characterizing the mechanical properties of collagen molecules and collagen-like peptides by indicating the proper pulling strain rates and how to determine the suitable strain range used for evaluating the elastic modulus.
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Bending properties of Ag nanowires with pre-existing surface defects
TL;DR: Based on the large-scale molecular dynamics simulation and the Euler-Bernoulli beam theory, the influence from different pre-existing surface defects on the bending properties of Ag nanowires (NWs) is studied in this paper.
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Substantial Band-Gap Tuning and a Strain-Controlled Semiconductor to Gapless/Band-Inverted Semimetal Transition in Rutile Lead/Stannic Dioxide
TL;DR: It is found that pressure/strain has a significant impact on the electronic structure of PbO2/SnO2, and not only can the band gap be substantially tuned by pressure/Strain, but also a transition between a semiconductor and a gapless/band-inverted semimetal can be manipulated.