Z
Zhiguo Wang
Researcher at University of Electronic Science and Technology of China
Publications - 237
Citations - 7039
Zhiguo Wang is an academic researcher from University of Electronic Science and Technology of China. The author has contributed to research in topics: Band gap & Density functional theory. The author has an hindex of 40, co-authored 226 publications receiving 5371 citations. Previous affiliations of Zhiguo Wang include Nanjing Tech University & Shenzhen Institute of Information Technology.
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Effect of annealing and heating/cooling rate on the transformation temperatures of NiFeGa alloy
TL;DR: In this paper, the effects of annealing and heating/cooling rate on the martensitic transformation temperatures were investigated by differential scanning calorimetry (DSC).
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Two-way shape memory effect of TiNi alloy coil extension springs
TL;DR: In this article, a two-way shape memory effect (TWSME) spring that could elongate upon heating and contract upon cooling was obtained by constrained annealing and thermo-mechanical training.
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Thermal Conductivity of GaN Nanotubes Simulated by Nonequilibrium Molecular Dynamics
TL;DR: In this paper, the thermal conductivity of GaN nanotubes along the tube axis is investigated over the temperature range from $600 to $2300 using homogeneous nonequilibrium molecular dynamics.
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Stone–Wales defects created by low energy recoils in single-walled silicon carbide nanotubes
TL;DR: In this paper, the defect creation at low energy events was studied using density functional theory molecular dynamics simulations in silicon carbide nanotubes, and the displacement threshold energies determined exhibit a dependence on sizes.
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Modeling and simulation of irradiation effects on martensitic transformations in shape memory alloys
TL;DR: In this article, a model for the calculation of the irradiation induced changes of the martensitic transformation temperatures of shape memory alloys is proposed, which considers the transition temperatures being determined by a chemical and a non-chemical term in the Gibbs free energy.