Journal ArticleDOI
Theoretical Modeling and Experimental Validation of Thermal Response of Metal-Ceramic Functionally Graded Beams
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In this paper, a third-order zigzag theory based finite element model in conjunction with the modified rule of mixtures and Wakashima-Tsukamoto model for estimating effective modulus of elasticity and coefficient of thermal expansion, respectively, is presented for layered functionally graded beams under thermal loading.Abstract:
A third-order zigzag theory based finite element model in conjunction with the modified rule of mixtures and Wakashima–Tsukamoto model for estimating effective modulus of elasticity and coefficient of thermal expansion, respectively, is presented for layered functionally graded beams under thermal loading. The model is validated through experiments with two systems, Al/SiC and Ni/Al2O3, fabricated using powder metallurgy and thermal spraying techniques, respectively. The predicted thermal deflections for simply supported and cantilever FGM beams are found to be in good agreement with the experimental values for both systems. For nonlinear variation of FGM composition across the thickness, two models for thickness discretization with equal thickness and equal change in volume fraction, respectively, are evaluated in terms of magnitude of axial stress and its jump at the interfaces. The effect of inhomogeneity parameter and number of layers in the FGM on the reduction of thermal stress and its jump at the i...read more
Citations
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Free vibration analysis of layered functionally graded beams with experimental validation
TL;DR: An improved third order shear deformation theory is employed to formulate a governing equation for predicting free vibration of layered functionally graded beams in this article, where the Ritz method is adopted to solve the governing equation.
Journal ArticleDOI
Efficient modeling of smart piezoelectric composite laminates: a review
TL;DR: Current research issues in the development of efficient analysis models and their efficient numerical implementation for smart piezoelectric laminated structures are discussed and future challenge lies in developing efficient theories capable of predicting the interlaminar transverse shear stresses in hybrid laminates directly from the constitutive equations.
Journal ArticleDOI
A critical review of stress and vibration analyses of functionally graded shell structures
Devesh Punera,Tarun Kant +1 more
Journal ArticleDOI
Modal characteristics of P- and S-FGM plates with temperature-dependent materials in thermal environment
TL;DR: In this article, the analysis of free vibration of functionally graded plates with temperature-dependent materials in thermal environment was performed using advanced hierarchical higher order equivalent single-layer plate theories developed using the method of power series expansion of displacement components.
Journal ArticleDOI
Vibration response of stepped FGM beams with elastically end constraints using differential transformation method
TL;DR: In this article, the free vibration response of stepped beams made from functionally graded materials (FGMs) is investigated, and the power law distribution is used and modified to describe material compositions across the thickness of the beams made of FGMs.
References
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Trevor A. Mori,K Tanaka +1 more
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Analysis of functionally graded plates
TL;DR: In this paper, Navier's solutions of rectangular plates, and finite element models based on the third-order shear deformation plate theory are presented for the analysis of through-thickness functionally graded plates.
Journal ArticleDOI
The Elastic and Thermo-elastic Properties of Composite Media
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Journal ArticleDOI
Thermal Expansion Coefficients of Composite Materials Based on Energy Principles
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