Assumed stress quasi-conforming formulation for static and free vibration analysis of symmetric laminated plates

Wang, Changsheng; Han, Xiao; Yang, Congling; Zhang, Xiangkui; Hou, Wenbin

doi:10.1108/ec-04-2019-0179

Cited by 2 publications

(1 citation statement)

References 78 publications

(111 reference statements)

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“…For FG-CNT (carbon nanotubes) reinforced shells, Hajlaoui et al (2019) performed static analysis using finite element analysis (FEA) formulation based on modified solid-shell element, and Mehar and Panda (2018) performed flexural analysis using higher-order shear deformation theory. Studies related to laminated plates involve a novel isogeometric method for stability analysis (Shahmohammadi et al , 2019), and a new quasi-conforming element for free vibration studies (Wang et al , 2020).…”

Section: Introductionmentioning

confidence: 99%

A numerical solution to thermo‐mechanical behavior of temperature dependent rotating functionally graded annulus disks

Madan

Bhowmick

2021

AEAT

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Purpose The purpose of this study is to investigate Thermo-mechanical limit elastic speed analysis of functionally graded (FG) rotating disks with the temperature-dependent material properties. Three different material models i.e. power law, sigmoid law and exponential law, along with varying disk profiles, namely, uniform thickness, tapered and exponential disk was considered. Design/methodology/approach The methodology adopted was variational principle wherein the solution was obtained by Galerkin’s error minimization principle. The Young’s modulus, coefficient of thermal expansion and yield stress variation were considered temperature-dependent. Findings The study shows a substantial increase in limit speed as disk profiles change from uniform thickness to exponentially varying thickness. At any radius in a disk, the difference in von Mises stress and yield strength shows the remaining stress-bearing capacity of material at that location. Practical implications Rotating disks are irreplaceable components in machinery and are used widely from power transmission assemblies (for example, gas turbine disks in an aircraft) to energy storage devices. During operations, these structures are mainly subjected to a combination of mechanical and thermal loadings. Originality/value The findings of the present study illustrate the best material models and their grading index, desired for the fabrication of uniform, as well as varying FG disks. Finite element analysis has been performed to validate the present study and good agreement between both the methods is seen.

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