GNP 增强复合层压板的热和热机械屈曲后分析

IF 3.4 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Mechanics of Materials Pub Date : 2024-10-04 DOI:10.1016/j.mechmat.2024.105171

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引用次数: 0

摘要

本研究采用等几何分析（IGA）方法分析了嵌入石墨烯纳米片（GNP）的复合层压板在三维（3D）热传导或三维热传导与机械边缘压缩联合作用下的屈曲和屈曲后响应。建立了一种公式来确定三维热传导在 GNP 增强层压板中产生的温度曲线，并提出了一种具有平滑过渡形式的 GNP 体积分数跨厚度的新函数，用于确定层的体积分数。采用考虑了初始几何变形和热效应的 von Kármán 型非线性剪切变形准三维理论来构建非线性平衡态。考虑了四种类型的 GNP 排列，包括均匀、O、X 和 V 形。通过基准测试，证明所提出的 IGA 方法能够准确估计热屈曲温度，并成功追踪热屈曲后的路径。此外，还进行了其他参数研究，以仔细观察 GNP 增强复合层压板的热屈曲和热机械屈曲后特征，这些新发现必将成为基准解决方案。

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Thermal and thermo-mechanical post-buckling analysis of GNP-reinforced composite laminated plates

This research utilizes isogeometric analysis (IGA) method to analyze buckling and post-buckling responses of composite laminated plates embedded with graphene nanoplatelets (GNPs) subjected to three-dimensional (3D) conduction of heat or combined 3D heat conduction and mechanical edge compression. A formulation to determine temperature profile produced by 3D conduction of heat in the GNP-reinforced laminate is established, and a new function with smooth transition form of GNP volume fraction across the thickness is presented for dictating the volume fraction of layer. Shear deformable quasi-3D theory with the von Kármán type nonlinearity which takes initial geometric deformation and thermal effect into consideration is employed to construct the nonlinear equilibrium states. Four types of GNP arrangements encompassing uniform, O, X and V shapes are considered. The IGA approach presented, through the benchmark test, is evidenced to estimate the thermal buckling temperature accurately and to successfully trace the thermal post-buckling path. Additional parametric study is carried out to scrutinize the thermal and the thermo-mechanical post-buckling features of the GNP-reinforced composite laminated plates, and the new findings are sure to be served as the benchmark solutions.

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来源期刊

Mechanics of Materials 工程技术-材料科学：综合

CiteScore

7.60

自引率

5.10%

发文量

243

审稿时长

46 days

期刊介绍： Mechanics of Materials is a forum for original scientific research on the flow, fracture, and general constitutive behavior of geophysical, geotechnical and technological materials, with balanced coverage of advanced technological and natural materials, with balanced coverage of theoretical, experimental, and field investigations. Of special concern are macroscopic predictions based on microscopic models, identification of microscopic structures from limited overall macroscopic data, experimental and field results that lead to fundamental understanding of the behavior of materials, and coordinated experimental and analytical investigations that culminate in theories with predictive quality.