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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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Numerical investigation of atherosclerotic plaque rupture using optical coherence tomography imaging and XFEM
TL;DR: The XFEM technique can be used to study the fatigue behavior of the atherosclerotic plaque that depends on the combined effects of plaque constituents and their morphology and may help to better assess plaque vulnerability and make more accurate predictions for plaque rupture.
Journal Article
Tailoring the resonance of bilayer graphene sheets by interlayer sp3 bonds
TL;DR: In this article, the authors explore the possibility of tailoring the resonance properties of a bilayer graphene sheet (GS) with interlayer sp3 bonds and show that the sp3 bond can either degrade or enhance the resonance of the resonator depending on their density and location.
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Adhesive characteristics of low dimensional carbon nanomaterial on actin
TL;DR: In this paper, the binding ability of two-dimensional monolayer carbon nanomaterial on actin by molecular simulation to understand their adhesive characteristics on F-actin cytoskeleton was analyzed.
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Numerical Exploration of the Defect’s Effect on Mechanical Properties of Nanowires under Torsion
TL;DR: In this article, the surface defects play a role of dislocation sources and the deformation mechanism appears different degrees of influence due to surface defects, the largest decrease is found for the nanowire with surface horizon defect.
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Transient heat transfer and non-isothermal particle-laden gas flows through porous metal foams of differing structure
TL;DR: In this paper, the authors investigated the dynamics and heat transfer profiles of non-isothermal solid-gas flows immersed in porous metal foams based on various solid foulant properties and found that the foulant temperature profiles vary with time and the temperature profiles also vary with increasing wall temperature.