Standard

Energy Dissipation during Vibrations of Heterogeneous Composite Structures : 3. Numerical Experiments. / Parshina, L. V.; Ryabov, V. M.; Yartsev, B. A.

в: Vestnik St. Petersburg University: Mathematics, Том 52, № 1, 2019, стр. 102-111.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Parshina, LV, Ryabov, VM & Yartsev, BA 2019, 'Energy Dissipation during Vibrations of Heterogeneous Composite Structures: 3. Numerical Experiments', Vestnik St. Petersburg University: Mathematics, Том. 52, № 1, стр. 102-111. https://doi.org/10.3103/S1063454119010114

APA

Parshina, L. V., Ryabov, V. M., & Yartsev, B. A. (2019). Energy Dissipation during Vibrations of Heterogeneous Composite Structures: 3. Numerical Experiments. Vestnik St. Petersburg University: Mathematics, 52(1), 102-111. https://doi.org/10.3103/S1063454119010114

Vancouver

Parshina LV, Ryabov VM, Yartsev BA. Energy Dissipation during Vibrations of Heterogeneous Composite Structures: 3. Numerical Experiments. Vestnik St. Petersburg University: Mathematics. 2019;52(1):102-111. https://doi.org/10.3103/S1063454119010114

Author

Parshina, L. V. ; Ryabov, V. M. ; Yartsev, B. A. / Energy Dissipation during Vibrations of Heterogeneous Composite Structures : 3. Numerical Experiments. в: Vestnik St. Petersburg University: Mathematics. 2019 ; Том 52, № 1. стр. 102-111.

BibTeX

@article{4a32b8886fe94ff0b41269c281338d11,
title = "Energy Dissipation during Vibrations of Heterogeneous Composite Structures: 3. Numerical Experiments",
abstract = "The influence of the relative thickness of a stiff viscoelastic polymer layer and the orientation of reinforcing layers of the bearing layer on the values of their natural frequencies and loss factors of damped vibrations of an unsupported two-layered composite plate has been investigated. It has been established that each natural vibration mode of a two-layered plate corresponds to a certain effective relative thickness of an isotropic viscoelastic polymer layer. A further increase in the relative thickness of plates with an orthotropic bearing layer depending on ambient temperature may result in both an increase and decrease in natural frequencies without any considerable change in their energy dissipation. For plates with a monoclinic bearing layer, the increase in relative thickness of the isotropic viscoelastic polymer layer is accompanied by both a decrease and increase of loss factor for different vibration modes. It is shown that a change in the stacking sequence of reinforcing layers in the bearing layer brings about mutual transformation domains of coupled vibration modes. It has been established that the mutual transformation of the natural shapes of coupled modes of an unsupported quasi-uniform rectangular plate vibrations appears if one of the natural shapes has an even number of quarter-wavelengths in at least one of the plate directions, whereas another natural shape has an odd number of those. It has been demonstrated that the temperature-frequency relationship of elastic-dissipative characteristics of the stiff viscoelastic polymer has a considerable effect upon natural frequencies and loss factors of all the investigated vibration modes for an unsupported rectangular two-layered plate.",
keywords = "anisotropy, loss factor, natural frequency, vibrations",
author = "Parshina, {L. V.} and Ryabov, {V. M.} and Yartsev, {B. A.}",
note = "Parshina, L.V., Ryabov, V.M. & Yartsev, B.A. Vestnik St.Petersb. Univ.Math. (2019) 52: 102. https://doi.org/10.3103/S1063454119010114",
year = "2019",
doi = "10.3103/S1063454119010114",
language = "Английский",
volume = "52",
pages = "102--111",
journal = "Vestnik St. Petersburg University: Mathematics",
issn = "1063-4541",
publisher = "Pleiades Publishing",
number = "1",

}

RIS

TY - JOUR

T1 - Energy Dissipation during Vibrations of Heterogeneous Composite Structures

T2 - 3. Numerical Experiments

AU - Parshina, L. V.

AU - Ryabov, V. M.

AU - Yartsev, B. A.

N1 - Parshina, L.V., Ryabov, V.M. & Yartsev, B.A. Vestnik St.Petersb. Univ.Math. (2019) 52: 102. https://doi.org/10.3103/S1063454119010114

PY - 2019

Y1 - 2019

N2 - The influence of the relative thickness of a stiff viscoelastic polymer layer and the orientation of reinforcing layers of the bearing layer on the values of their natural frequencies and loss factors of damped vibrations of an unsupported two-layered composite plate has been investigated. It has been established that each natural vibration mode of a two-layered plate corresponds to a certain effective relative thickness of an isotropic viscoelastic polymer layer. A further increase in the relative thickness of plates with an orthotropic bearing layer depending on ambient temperature may result in both an increase and decrease in natural frequencies without any considerable change in their energy dissipation. For plates with a monoclinic bearing layer, the increase in relative thickness of the isotropic viscoelastic polymer layer is accompanied by both a decrease and increase of loss factor for different vibration modes. It is shown that a change in the stacking sequence of reinforcing layers in the bearing layer brings about mutual transformation domains of coupled vibration modes. It has been established that the mutual transformation of the natural shapes of coupled modes of an unsupported quasi-uniform rectangular plate vibrations appears if one of the natural shapes has an even number of quarter-wavelengths in at least one of the plate directions, whereas another natural shape has an odd number of those. It has been demonstrated that the temperature-frequency relationship of elastic-dissipative characteristics of the stiff viscoelastic polymer has a considerable effect upon natural frequencies and loss factors of all the investigated vibration modes for an unsupported rectangular two-layered plate.

AB - The influence of the relative thickness of a stiff viscoelastic polymer layer and the orientation of reinforcing layers of the bearing layer on the values of their natural frequencies and loss factors of damped vibrations of an unsupported two-layered composite plate has been investigated. It has been established that each natural vibration mode of a two-layered plate corresponds to a certain effective relative thickness of an isotropic viscoelastic polymer layer. A further increase in the relative thickness of plates with an orthotropic bearing layer depending on ambient temperature may result in both an increase and decrease in natural frequencies without any considerable change in their energy dissipation. For plates with a monoclinic bearing layer, the increase in relative thickness of the isotropic viscoelastic polymer layer is accompanied by both a decrease and increase of loss factor for different vibration modes. It is shown that a change in the stacking sequence of reinforcing layers in the bearing layer brings about mutual transformation domains of coupled vibration modes. It has been established that the mutual transformation of the natural shapes of coupled modes of an unsupported quasi-uniform rectangular plate vibrations appears if one of the natural shapes has an even number of quarter-wavelengths in at least one of the plate directions, whereas another natural shape has an odd number of those. It has been demonstrated that the temperature-frequency relationship of elastic-dissipative characteristics of the stiff viscoelastic polymer has a considerable effect upon natural frequencies and loss factors of all the investigated vibration modes for an unsupported rectangular two-layered plate.

KW - anisotropy

KW - loss factor

KW - natural frequency

KW - vibrations

UR - http://www.scopus.com/inward/record.url?scp=85064930861&partnerID=8YFLogxK

UR - https://link.springer.com/article/10.3103/S1063454119010114

U2 - 10.3103/S1063454119010114

DO - 10.3103/S1063454119010114

M3 - статья

AN - SCOPUS:85064930861

VL - 52

SP - 102

EP - 111

JO - Vestnik St. Petersburg University: Mathematics

JF - Vestnik St. Petersburg University: Mathematics

SN - 1063-4541

IS - 1

ER -

ID: 41465298