Shanglin Huang scite author profile

Shanglin Huang

4Publications

5Citation Statements Received

52Citation Statements Given

How they've been cited

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Affiliations

Wuhan University of Technology, Changchun University of Science and Technology, First Affiliated Hospital of Zhengzhou University

Publications

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The application study of helicopter airborne photoelectric stabilized pod in the high voltage power line inspection

Zhang

Yan

Meng

et al. 2012

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this paper expatiated on current application situation of helicopter airborne photoelectric stabilized pod in the power line inspection, and analyzed the requirement of the high-voltage power line inspection to helicopter airborne photoelectric stabilized pod. And then we developed a pod and inspected its performance with the flight test. The result showed that the pod could meet the requirement with a stable view and a high definition image. In contrast to the way with the hand-held telescope, the efficiency was hugely improved, for the inspection speed was increased from 20km/h to 40km/h. Finally we predicted the application prospect of helicopter airborne photoelectric stabilized pod and gave some suggestions to the problem that had exposed in the test.

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Effect of initial temperature on impact-induced spalling behavior in single-crystal aluminum studied by molecular dynamics simulations

Luo

Huang

et al. 2022

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Spallation is a typical dynamic fracture mode under shock loading and has attracted the attention of most researchers. However, due to the difficulty in measuring temperature in dynamic experiments, the effect of initial temperature on spalling response has been rarely investigated. Molecular dynamics simulation perfectly corresponds to the short duration and high strain rate of the spalling process. Therefore, in this work, molecular dynamics simulations are used to study the spalling reaction of single-crystal aluminum at different initial temperatures. The research has shown that the evolution of spallation is related to dislocation and hole nucleation. First, the spall strength of the material decreases as initial temperature increases, while the dislocation density gradually increases. However, when the initial temperature increases to 750 K, the dislocation density decreases. Then, the number of holes and the degree of damage change as initial temperature increases. However, at the low impact strength (v < 2.0 km/s), the changes in the number of holes and the degree of damage are highly dependent on the initial temperature. In the case of high impact strength, the opposite is true. Finally, the thermodynamic path of the material during impact compression is studied. It is found that melting may occur during compression, release or tension, and damage stages, depending on the initial temperature and impact strength. The discovery and research of these systems have laid a solid foundation for subsequent studies.

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Molecular dynamics simulation on spallation of [111] Cu/Ni nano-multilayers: Voids evolution under different shock pulse duration

Zhu

Huang

et al. 2022

Computational Materials Science

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Shear Localization and Mechanical Properties of Cu/Ta Metallic Nanolayered Composites: A Molecular Dynamics Study

Wang

et al. 2022

Metals

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With their excellent mechanical properties, Cu/Ta metallic nanolayered composites (MNCs) are extensively applied in aerospace and nuclear industry facilities. However, shear localization severely disrupts the ability of these materials to deform uniformly, attracting many researchers. The necessary time and length conditions of experiments limit the investigation of shear localization; thus, relevant studies are insufficient. The molecular dynamics simulation perfectly corresponds to the short duration and high strain rate of the deformation process. Therefore, in this study, we used molecular dynamics simulations to explore the effect of layer thickness on the shear localization of Cu/Ta MNCs with Kurdjumov–Sachs (KS) orientation–related interfaces. Our research demonstrates that shear localization occurs in samples with layer thicknesses below 2.5 nm, resulting in an inverse size effect on the flow strength. The quantitative analysis indicates that the asymmetry of dislocations in the slip transmission across the interface causes interface rotation. This activates dislocations parallel to the interface to glide beyond the distance of individual layer thicknesses, eventually forming shear bands. Both interface rotation and sliding dominate the plastic deformation in the shear band region. In addition, the dislocation density and amorphous phase increase with decreasing layer thickness.

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Shanglin Huang

The application study of helicopter airborne photoelectric stabilized pod in the high voltage power line inspection

Effect of initial temperature on impact-induced spalling behavior in single-crystal aluminum studied by molecular dynamics simulations

Molecular dynamics simulation on spallation of [111] Cu/Ni nano-multilayers: Voids evolution under different shock pulse duration

Shear Localization and Mechanical Properties of Cu/Ta Metallic Nanolayered Composites: A Molecular Dynamics Study

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