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A platform for research: civil engineering, architecture and urbanism
Hygrothermal effect on vibration of magnetostrictive viscoelastic sandwich plates supported by Pasternak's foundations
https://orcid.org/0000-0002-0883-8073
Abstract In hygrothermal environment, vibration study of a simply supported smart sandwich plate embedded in an elastic substrate medium is presented in the present article. The sandwich plate contains layers of fiber-reinforced and magnetostrictive materials and core of viscoelastic material. The kinematic equations system is derived via employing Hamilton's principle with considering the transverse shear strains with and without the normal strains effect. Various numerical examples are carried out to study the effects of temperature rise, degree of moisture concentration, elastic foundations parameters, thickness ratio, aspect ratio, thickness ratio of magnetostrictive layer to viscoelastic layer, modes, lamination schemes, magnitude of the feedback coefficient, position of the magnetostrictive layers and viscoelastic structural damping coefficient on controlled motion and vibration characteristics of plate. Some observation about influences of the temperature and humidity concentrations on vibration characteristics of studied plate are presented in detail. The outcomes indicate that the hygrothermal environments have negative effects on vibration suppression of advanced composite structures especially the uniform hygrothermal distribution. The frequencies increase with increasing the viscoelastic structural damping coefficient and the foundation constants.
Highlights Vibration of a simply supported sandwich plate embedded in an elastic substrate medium is presented. The sandwich plate contains fiber-reinforced and magnetostrictive layers and viscoelastic core. Kinematic equations are derived via employing Hamilton's principle. Numerical examples are carried out to study effects of some parameters on controlled motion. The influences of the temperature and humidity concentrations are presented in detail.
Hygrothermal effect on vibration of magnetostrictive viscoelastic sandwich plates supported by Pasternak's foundations
https://orcid.org/0000-0002-0883-8073
Abstract In hygrothermal environment, vibration study of a simply supported smart sandwich plate embedded in an elastic substrate medium is presented in the present article. The sandwich plate contains layers of fiber-reinforced and magnetostrictive materials and core of viscoelastic material. The kinematic equations system is derived via employing Hamilton's principle with considering the transverse shear strains with and without the normal strains effect. Various numerical examples are carried out to study the effects of temperature rise, degree of moisture concentration, elastic foundations parameters, thickness ratio, aspect ratio, thickness ratio of magnetostrictive layer to viscoelastic layer, modes, lamination schemes, magnitude of the feedback coefficient, position of the magnetostrictive layers and viscoelastic structural damping coefficient on controlled motion and vibration characteristics of plate. Some observation about influences of the temperature and humidity concentrations on vibration characteristics of studied plate are presented in detail. The outcomes indicate that the hygrothermal environments have negative effects on vibration suppression of advanced composite structures especially the uniform hygrothermal distribution. The frequencies increase with increasing the viscoelastic structural damping coefficient and the foundation constants.
Highlights Vibration of a simply supported sandwich plate embedded in an elastic substrate medium is presented. The sandwich plate contains fiber-reinforced and magnetostrictive layers and viscoelastic core. Kinematic equations are derived via employing Hamilton's principle. Numerical examples are carried out to study effects of some parameters on controlled motion. The influences of the temperature and humidity concentrations are presented in detail.
Hygrothermal effect on vibration of magnetostrictive viscoelastic sandwich plates supported by Pasternak's foundations
https://orcid.org/0000-0002-0883-8073
Abstract In hygrothermal environment, vibration study of a simply supported smart sandwich plate embedded in an elastic substrate medium is presented in the present article. The sandwich plate contains layers of fiber-reinforced and magnetostrictive materials and core of viscoelastic material. The kinematic equations system is derived via employing Hamilton's principle with considering the transverse shear strains with and without the normal strains effect. Various numerical examples are carried out to study the effects of temperature rise, degree of moisture concentration, elastic foundations parameters, thickness ratio, aspect ratio, thickness ratio of magnetostrictive layer to viscoelastic layer, modes, lamination schemes, magnitude of the feedback coefficient, position of the magnetostrictive layers and viscoelastic structural damping coefficient on controlled motion and vibration characteristics of plate. Some observation about influences of the temperature and humidity concentrations on vibration characteristics of studied plate are presented in detail. The outcomes indicate that the hygrothermal environments have negative effects on vibration suppression of advanced composite structures especially the uniform hygrothermal distribution. The frequencies increase with increasing the viscoelastic structural damping coefficient and the foundation constants.
Highlights Vibration of a simply supported sandwich plate embedded in an elastic substrate medium is presented. The sandwich plate contains fiber-reinforced and magnetostrictive layers and viscoelastic core. Kinematic equations are derived via employing Hamilton's principle. Numerical examples are carried out to study effects of some parameters on controlled motion. The influences of the temperature and humidity concentrations are presented in detail.
Hygrothermal effect on vibration of magnetostrictive viscoelastic sandwich plates supported by Pasternak's foundations
Zenkour, Ashraf M. (author) / El-Shahrany, Hela D. (author)
Thin-Walled Structures ; 157
2020-07-24
Article (Journal)
Electronic Resource
English
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