Magneto-thermoelastic response in a functionally graded rotating medium due to a periodically varying heat source

Pal, P.; Das, Payel; Kanoria, M.

doi:10.1007/s00707-015-1301-y

Cited by 19 publications

(9 citation statements)

References 44 publications

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“…In using different generalized thermoelasticity theories, many authors have considered various linear thermoviscoelastic problems. [1][2][3][4][5][6][7][8][9] The classical coupled theory of thermoelasticity is based on a parabolic type of heat conduction equation while the generalized thermoelasticity theory was postulated by Lord and Shulman 10 as well as Green and Lindsay, 11 who used a hyperbolic type of heat conduction equation admitting finite speed for thermal disturbances. The theory developed by Lord and Shulman 10 takes into account only one parameter of relaxation time and has been extended by Dhaliwal and Sherief 12 in anisotropic media.…”

Section: Introductionmentioning

confidence: 99%

Thermoviscoelastic Vibrations of a Micro-Scale Beam Subjected to Sinusoidal Pulse Heating

Mashat¹,

Zenkour²,

Abouelregal³

2017

IJAV

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In this article, we studied the vibrational effects of a viscoelastic micro-scale beam induced by sinusoidal pulse heating based on Euler-Bernoulli beam theory. The formulation of the present problem is applied to the generalized thermoelasticity with phase lags. The deflection, temperature, axial displacement, and bending moment of the micro-scale beam are determined by using the Laplace transform method. The system of governing equations is reduced to a novel six-order thermoelastic differential equation in either deflection or temperature. The numerical results in case of silicon material are presented with the help of Mathematica programming software. Some plots are illustrated to investigate the effects of the phase-lags and the width of the sinusoidal pulse parameters. The effect of the viscosity on the micro-scale beam resonator is also investigated.

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Section: Introductionmentioning

confidence: 99%

Thermoviscoelastic Vibrations of a Micro-Scale Beam Subjected to Sinusoidal Pulse Heating

Mashat¹,

Zenkour²,

Abouelregal³

2017

IJAV

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“…FGMs are a type of material whose characteristics change continually with location. Studies often focus on particle composites, where the dispersed phase's volume fraction fluctuates continuously with thickness.The following formula provides a description of how matter's physical properties evolve in an exponential fashion in the 𝑧-axis direction [8]:…”

Section: Problem Formulationmentioning

confidence: 99%

“…There are many uses for magneto-elastic materials. These materials have found utility in cutting-edge fields like lasers, supersonic gadgets, microwaves, and infrared purposes due to their ability to transform energy types [8]. In addition, ferroelectric composites are inherently anisotropic and exhibit correlated behaviors between the interactions of mechanical, electrical, and electromagnetic interactions.…”

Section: Introductionmentioning

confidence: 99%

The theory of thermoelasticity with a memory-dependent dynamic response for a thermo-piezoelectric functionally graded rotating rod

askar,

Marin,

Abouelregal

et al. 2023

Preprint

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By laminating piezoelectric and flexible materials during the manufacturing process, we can improve the performance of electronic devices. In smart structure design, it is also important to understand how the functionally graded piezoelectric (FGP) structure changes over time when thermoelasticity is assumed. This is because these structures are often exposed to both moving and still heat sources during many manufacturing processes. Therefore, the electrical and mechanical properties of layered piezoelectric materials that are subjected to electromechanical loads and heat sources must be both analyzed theoretically and practically.Classical thermoelasticity cannot solve the problem of the infinite speed of heat wave propagation, so extended thermoelasticity models are proposed. In this paper, the Lord-Shulman theory with the idea of a memory-dependent derivative (MDD) was used to investigate how a moving axial heat source affects the thermomechanical sensitivity of a FGP rod.The physical characteristics of the FG rod are supposed to change exponentially when travelling in the direction of the rod axis. It is further assumed that the rod is held at both ends and that there is no voltage across them.Laplace transform procedures were used to obtain the physical fields being analyzed. A combination of measures of heterogeneity, kernel functions, time delays, and heat source velocities was used to make comparisons between the results discussed and those in previous literature.It was found that a higher value of the inhomogeneity index reduces the dynamic behavior to axial displacement, temperature change, and electric potential.

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“…Sarkar [15] investigated an electromagnetothermoelastic coupled problem for a half-space subjected to a thermal shock under different generalized thermoelastic theories. Pal et al [16] dealt with the problem of magnetothermoelastic interactions in a rotating medium due to a periodically varying heat source in the context of generalized thermoelasticity. Singh and Chakraborty [17] studied the effects of the magnetic field and initial stress on the reflection of a plane magnetothermoelastic wave from the boundary of a solid half-space.…”

Section: Introductionmentioning

confidence: 99%

Effect of Variable Properties and Moving Heat Source on Magnetothermoelastic Problem under Fractional Order Thermoelasticity

Xiong

Guo

2016

Advances in Materials Science and Engineering

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A one-dimensional generalized magnetothermoelastic problem of a thermoelastic rod with finite length is investigated in the context of the fractional order thermoelasticity. The rod with variable properties, which are temperature-dependent, is fixed at both ends and placed in an initial magnetic field, and the rod is subjected to a moving heat source along the axial direction. The governing equations of the problem in the fractional order thermoelasticity are formulated and solved by means of Laplace transform in tandem with its numerical inversion. The distributions of the nondimensional temperature, displacement, and stress in the rod are obtained and illustrated graphically. The effects of the temperature-dependent properties, the velocity of the moving heat source, the fractional order parameter, and so forth on the considered variables are concerned and discussed in detail, and the results show that they significantly influence the variations of the considered variables.

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Magneto-thermoelastic response in a functionally graded rotating medium due to a periodically varying heat source

Cited by 19 publications

References 44 publications

Thermoviscoelastic Vibrations of a Micro-Scale Beam Subjected to Sinusoidal Pulse Heating

Thermoviscoelastic Vibrations of a Micro-Scale Beam Subjected to Sinusoidal Pulse Heating

The theory of thermoelasticity with a memory-dependent dynamic response for a thermo-piezoelectric functionally graded rotating rod

Effect of Variable Properties and Moving Heat Source on Magnetothermoelastic Problem under Fractional Order Thermoelasticity

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