Vibration analysis of quasicrystal sector plates with porosity distribution in a thermal environment

IF 2.7 3区 材料科学 Q2 ENGINEERING, MECHANICAL
Xin Feng, Liangliang Zhang, Yang Li, Yang Gao
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Abstract

An approach to estimating the dynamic characteristic of one-dimensional orthorhombic quasicrystal sector plates with various boundary conditions is presented. These investigated structures have an arbitrary angle span, and the constituent materials of these models possess a certain porosity distribution. The Green–Naghdi generalized thermoelastic equations have been applied to the sector plates in a thermal environment to obtain an explicit expression, from which the heat fluxes equation can be converted into a state equation. The state-space method is conducted in basic equations of phason and phonon fields to capture governing equations of the structures along the r-direction. Fourier series expansions are utilized to control the span of the sector plates, subject to simply supported boundary conditions along the circumferential direction. Meanwhile, the remaining boundary conditions are treated by differential quadrature technique. The global propagator matrix is proposed to overcome the numerical instabilities caused by high-order frequency and large discrete points. Numerical examples show that each order frequency follows an increasing pattern from small to large with the increase of fixed boundary conditions. The changes in angular span can cause variations in stiffness, leading to alterations in structural stability.

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热环境中具有气孔分布的准晶体扇形板的振动分析
本文介绍了一种估算具有各种边界条件的一维正交准晶扇形板动态特性的方法。这些被研究的结构具有任意的角度跨度,这些模型的组成材料具有一定的孔隙率分布。格林-纳格迪广义热弹性方程被应用于热环境中的扇形板,从而获得了一个明确的表达式,热通量方程可由此转换为状态方程。状态空间法在声子场和声子场的基本方程中进行,以捕捉沿 r 方向的结构的支配方程。利用傅里叶级数展开来控制扇形板的跨度,并沿圆周方向施加简单支撑边界条件。同时,其余边界条件采用微分正交技术处理。为克服高阶频率和大离散点引起的数值不稳定性,提出了全局传播矩阵。数值示例表明,随着固定边界条件的增加,各阶频率遵循由小到大的递增规律。角跨度的变化会引起刚度的变化,从而导致结构稳定性的改变。
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来源期刊
International Journal of Mechanics and Materials in Design
International Journal of Mechanics and Materials in Design ENGINEERING, MECHANICAL-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
6.00
自引率
5.40%
发文量
41
审稿时长
>12 weeks
期刊介绍: It is the objective of this journal to provide an effective medium for the dissemination of recent advances and original works in mechanics and materials'' engineering and their impact on the design process in an integrated, highly focused and coherent format. The goal is to enable mechanical, aeronautical, civil, automotive, biomedical, chemical and nuclear engineers, researchers and scientists to keep abreast of recent developments and exchange ideas on a number of topics relating to the use of mechanics and materials in design. Analytical synopsis of contents: The following non-exhaustive list is considered to be within the scope of the International Journal of Mechanics and Materials in Design: Intelligent Design: Nano-engineering and Nano-science in Design; Smart Materials and Adaptive Structures in Design; Mechanism(s) Design; Design against Failure; Design for Manufacturing; Design of Ultralight Structures; Design for a Clean Environment; Impact and Crashworthiness; Microelectronic Packaging Systems. Advanced Materials in Design: Newly Engineered Materials; Smart Materials and Adaptive Structures; Micromechanical Modelling of Composites; Damage Characterisation of Advanced/Traditional Materials; Alternative Use of Traditional Materials in Design; Functionally Graded Materials; Failure Analysis: Fatigue and Fracture; Multiscale Modelling Concepts and Methodology; Interfaces, interfacial properties and characterisation. Design Analysis and Optimisation: Shape and Topology Optimisation; Structural Optimisation; Optimisation Algorithms in Design; Nonlinear Mechanics in Design; Novel Numerical Tools in Design; Geometric Modelling and CAD Tools in Design; FEM, BEM and Hybrid Methods; Integrated Computer Aided Design; Computational Failure Analysis; Coupled Thermo-Electro-Mechanical Designs.
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