Nonlinear thermo-elastic bending of functionally graded carbon nanotube-reinforced composite plates resting on elastic foundations by dynamic relaxation method

Golmakani M. E.; Zeighami V.

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Nonlinear thermo-elastic bending of functionally graded carbon nanotube-reinforced composite plates resting on elastic foundations by dynamic relaxation method

机译：通过动态松弛方法在弹性基础上搁在功能上渐进的碳纳米管增强复合板的非线性热弹性弯曲

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In this study, the nonlinear thermo-elastic bending analysis of a functionally graded carbon nanotube-reinforced composite plate resting on two parameter elastic foundations is investigated. The material properties of the carbon nanotube-reinforced composite plates are assumed to be temperature dependent and graded in the thickness direction. The nonlinear formulations are based on a first-order shear deformation plate theory and large deflection von Karman equations. A dynamic relaxation method is employed to solve the plate nonlinear partial differential equations. The effects of volume fraction of carbon nanotubes, thermal gradient, temperature dependency, elastic foundation, boundary conditions, plate width-to-thickness ratio, aspect ratio, and carbon nanotubes distribution are studied in detail.

机译：在该研究中，研究了在两个参数弹性基础上搁置在两个参数弹性基础上的功能梯度碳纳米管增强复合板的非线性热弹性弯曲分析。碳纳米管增强复合板的材料特性被假定为温度依赖性并在厚度方向上分级。非线性配方基于一阶剪切变形板理论和大偏转von Karman方程。采用动态松弛方法来解决板非线性偏微分方程。详细地研究了碳纳米管的体积分数，热梯度，温度依赖性，弹性基础，边界条件，板宽度与厚度比，纵横比和碳纳米管分布的影响。

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《Mechanics of Advanced Materials and Structures》 |2018年第16期|共13页
作者
Golmakani M. E.; Zeighami V.;
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作者单位

Islamic Azad Univ Dept Mech Engn Mashhad Branch POB 9187144123 Mashhad Iran;

Islamic Azad Univ Dept Mech Engn Mashhad Branch POB 9187144123 Mashhad Iran;

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原文格式 PDF
正文语种 eng
中图分类复合材料;
关键词
Bending; CNTRC plate; thermal gradient; temperature dependency; DR method;

机译：弯曲;CNTRC板;热梯度;温度依赖;DR方法;

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专利

1. Nonlinear thermo-elastic bending of functionally graded carbon nanotube-reinforced composite plates resting on elastic foundations by dynamic relaxation method [J] . Golmakani M. E., Zeighami V. Mechanics of Advanced Materials and Structures . 2018,第9a16期

机译：通过动态松弛方法在弹性基础上搁在功能上渐进的碳纳米管增强复合板的非线性热弹性弯曲
2. Nonlinear dynamic response and vibration of functionally graded carbon nanotube-reinforced composite (FG-CNTRC) shear deformable plates with temperature-dependent material properties and surrounded on elastic foundations [J] . Nguyen Van Thanh, Nguyen Dinh Khoa, Ngo Duc Tuan, Journal of thermal stresses . 2017,第10a12期

机译：功能梯度的碳纳米管增强复合材料（FG-CNTRC）剪切可变形板的非线性动力响应和振动，其温度依赖于材料特性，并围绕弹性基础
3. Static response and free vibration of functionally graded carbon nanotube-reinforced composite rectangular plates resting on Winkler -Pasternak elastic foundations [J] . Nguyen Dinh Duc, Lee Jaehong, Nguyen-Thoi T., Aerospace science and technology . 2017,第sepa期

机译：功能梯度碳纳米管增强复合矩形板在Winkler -Pasternak弹性地基上的静态响应和自由振动
4. Nonlinear bending analysis of functionally graded plates with complex shape resting on elastic foundations [C] . J. Awrejcewicz, L.V. Kurpa, K.I. Lyubitska International Conference on Shell Structures: Theory and Applications . 2018

机译：具有复杂形状与弹性基础的功能分级板的非线性弯曲分析
5. Application of Groebner Bases to Geometrically Nonlinear Analysis of Rectangular Composite Plates Resting on a Pasternak Foundation [D] . Perry, Colin G. 2018

机译：Groebner基座在基于Pasternak地基的矩形组合板几何非线性分析中的应用。
6. The Dynamic Response and Vibration of Functionally Graded Carbon Nanotube-Reinforced Composite (FG-CNTRC) Truncated Conical Shells Resting on Elastic Foundations [O] . Duc Nguyen Dinh, Pham Dinh Nguyen 2017

机译：功能梯度碳纳米管增强复合材料（FG-CNTRC）截断的圆锥形壳体基于弹性基础的动力响应和振动
7. The Dynamic Response and Vibration of Functionally Graded Carbon Nanotube-Reinforced Composite (FG-CNTRC) Truncated Conical Shells Resting on Elastic Foundations [O] . Duc Nguyen Dinh, Pham Dinh Nguyen 2017

机译：弹性地基上功能梯度碳纳米管增强复合材料（FG-CNTRC）截断圆锥壳的动态响应和振动
8. Elastic Stress Analysis of Advanced Functionally Graded Plates Impacted by Blast Loading [R] . Hause, T. 2010

机译：爆炸荷载作用下先进功能梯度板的弹性应力分析

Nonlinear thermo-elastic bending of functionally graded carbon nanotube-reinforced composite plates resting on elastic foundations by dynamic relaxation method

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