Transient Piezothermoelasticity of a Two-Layered Composite Hollow Cylinder Constructed of Isotropic Elastic and Piezoelectric Layers Due to Asymmetrical Heating

Tanigawa, Yoshinobu; Ootao, Yoshihiro

doi:10.1080/01495730701499073

Cited by 10 publications

(2 citation statements)

References 25 publications

(27 reference statements)

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“…Wang and Ding studied the dynamic piezothermoelastic responses of a two-layered composite hollow cylinder constructed of elastic and pyroelectric layers [16]. Tanigawa and Ootao treated the transient piezothermoelasticity of a two-layered composite hollow cylinder constructed of isotropic elastic and piezoelectric layers due to asymmetrical heating [17]. Wang et al further investigated the dynamic responses of a multilayered pyroelectric hollow cylinder of crystal class 2 mm for axisymmetric plane strain problems [18].…”

Section: Introductionmentioning

confidence: 99%

Piezothermoelastic behavior of multilayered pyroelectric cylindrical actuators with weakly conducting interfaces resting on elastic foundations

Wang¹

2014

Smart Mater. Struct.

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An exact solution is obtained for multilayered pyroelectric cylindrical (MPC) actuators with weakly conducting interfaces subjected to thermo-electro-mechanical loading. The outer surface of the composite cylindrical actuator is supported by a Winkler-type elastic foundation. At the interface, all the thermal and mechanical quantities as well as the normal electric displacement are assumed to be continuous but the electric potential is discontinuous. The temperature fields are obtained by the transfer matrix method and the piezothermoelastic fields are developed by the state space method combined with the Cayley-Hamilton theorem. Numerical results are presented graphically to show the effects of the elastic foundation, interfacial parameters and heat transfer coefficient on the piezothermoelastic behavior of MPC actuators.

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Section: Introductionmentioning

confidence: 99%

Piezothermoelastic behavior of multilayered pyroelectric cylindrical actuators with weakly conducting interfaces resting on elastic foundations

Wang¹

2014

Smart Mater. Struct.

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“…Ashida and Tauchert [9] investigated temperature, displacement, stress and electric fields of a finite circular piezoelectric disk subjected to axisymmetric loading, and also presented general solutions for a three dimensional thermopiezoelectric solid of class 6 mm. Tanigiwa and Ootao [10] employed Airy's stress function and Laplace integral transforms to derive the exact solution for transient temperature field of a two-layered, hollow, thermopiezoelectric cylinder under axisymmetric heating.…”

Section: Introductionmentioning

confidence: 99%

Axisymmetric Responses of Thermopiezoelectric Finite Cylinder

Sapsathiarn

Boonphennimit²,

Rungamornrat³

et al. 2013

AEJ

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This paper is concerned with theoretical treatment of transient responses of finite thermopiezoelectric cylinder under axisymmetric mechanical, electrical and thermal loading. The analytical general solutions for axisymmetric deformations of a thermopiezoelectric medium are obtained in terms of series of Bessel and modified Bessel functions of the first kind. A boundaryvalue problem corresponding to a finite solid thermopiezoelectric cylinder with electrically impermeable boundary condition under applied axisymmetric electromechanical loading and temperature change is solved by expanding the applied load in terms of Fourier-Bessel series. Accuracy of the present numerical solution scheme is confirmed by comparing with existing transient solution of an elastic cylinder. To portray the salient features of the coupling transient responses of finite solid thermopiezoelectric cylinders, selected numerical results are presented for displacements, stresses and temperature distributions inside the cylinders subjected to applied traction together with prescribed temperature at the lateral curve surface of the cylinder.

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Green’s Functions

Pan

2009

Special Topics in the Theory of Piezoelectricity

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Transient Piezothermoelasticity of a Two-Layered Composite Hollow Cylinder Constructed of Isotropic Elastic and Piezoelectric Layers Due to Asymmetrical Heating

Cited by 10 publications

References 25 publications

Piezothermoelastic behavior of multilayered pyroelectric cylindrical actuators with weakly conducting interfaces resting on elastic foundations

Piezothermoelastic behavior of multilayered pyroelectric cylindrical actuators with weakly conducting interfaces resting on elastic foundations

Axisymmetric Responses of Thermopiezoelectric Finite Cylinder

Green’s Functions

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