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Author: search.filters.author.Song Zhiqiang

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    Item type:Publication,
    Static responses for Graphene nanoplatlet reinforced aerobic sport plate
    (2025-06-25)
    Zang Zhaowei
    ;
    Song Zhiqiang
    ;
    Li Aiyun
    ;
    HABIBI, MOSTAFA  
    ;
    Albaijan, Ibrahim
    This work applies a detailed shear deformable based kinematic modeling of a graphene origami reinforced nanocomposite aerobic sport plate subjected to thermal and mechanical loading. The proposed model is application for analysis of the reinforced aerobic sport plate. The analytical bending analysis was performed using the virtual work principle. The behavioral relations were extended using the overall material properties derived from the previously developed relations of the experimental and statistical studies. The nanocomposite aerobic sport was composed of a copper matrix reinforced with graphene origami as a novel reinforcement. The overall material properties were developed with changes of thermal loads, volume fraction and folding parameter of aerobic sport plate. The numerical results were derived using the analytical works in terms of the significant import parameters. An increase in the displacements is observed with an increase in the thermal loads and folding parameter as well as decrease in volume fraction.
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    Item type:Publication,
    Application of a folded nanostructure reinforcement for the pole vault curved shell
    (Informa UK Limited, 2024-07-08)
    Song Zhiqiang
    ;
    Li Aiyun
    ;
    Zhao Daichang
    ;
    Li Shuangjun
    ;
    Mostafa Habibi
    Foldability capacity is now introduced as a novel nanofiller reinforcement production procedure using some operation to control the mechanical, thermal and electrical properties in the sport equipment. Application of this type of nanofillers in the curved structures like pole vault shell leads to a novel engineering and sport shell shape structures. This article is organized to suggest a vibration-based formulation for analysis of folded reinforced curved shell sport structure subjected to thermal and mechanical loading. Using computation of kinetic, strain and external energies, one can arrive the motion’s equations using the minimization of total energy and Hamilton’s principle. Using solution of the motion’s equations through an analytical approach, the parametric analysis is presented. The verified test is presented for confirmation of the solution and trend of results.