Influence of prestress on the velocities of plane waves propagating normally to the layers of nanocomposites

Y. A. Zhuk; I. A. Guz

doi:10.1007/s10778-006-0141-9

Influence of prestress on the velocities of plane waves propagating normally to the layers of nanocomposites

Y. A. Zhuk^*, I. A. Guz

^*Corresponding author for this work

School of Engineering & Physical Sciences

Research output: Contribution to journal › Article › peer-review

26 Citations (Scopus)

Abstract

The paper is concerned with longitudinal and transverse waves propagating at a right angle to the layers of a nanocomposite material with initial (process-induced residual) stresses. The composite consists of alternating layers of two dissimilar materials. The materials are assumed nonlinearly elastic and described by the Murnaghan potential. For simulation of wave propagation, a problem is formulated within the framework of the three-dimensional linearized theory of elasticity for finite prestrains. It is established that the relative velocities of waves depend linearly on small prestresses. In some composite materials, however, the thicknesses of the layers may be in a ratio such that the wave velocities are independent of the prestress level.

Original language	English
Pages (from-to)	729-743
Number of pages	15
Journal	International Applied Mechanics
Volume	42
Issue number	7
DOIs	https://doi.org/10.1007/s10778-006-0141-9
Publication status	Published - Jul 2006

Keywords

Composite materials
Initial stress
Longitudinal and transverse waves
Nanocomposites
Three-dimensional linearized theory of elasticity
Wave velocities

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering

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10.1007/s10778-006-0141-9

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title = "Influence of prestress on the velocities of plane waves propagating normally to the layers of nanocomposites",

abstract = "The paper is concerned with longitudinal and transverse waves propagating at a right angle to the layers of a nanocomposite material with initial (process-induced residual) stresses. The composite consists of alternating layers of two dissimilar materials. The materials are assumed nonlinearly elastic and described by the Murnaghan potential. For simulation of wave propagation, a problem is formulated within the framework of the three-dimensional linearized theory of elasticity for finite prestrains. It is established that the relative velocities of waves depend linearly on small prestresses. In some composite materials, however, the thicknesses of the layers may be in a ratio such that the wave velocities are independent of the prestress level.",

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AU - Guz, I. A.

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N2 - The paper is concerned with longitudinal and transverse waves propagating at a right angle to the layers of a nanocomposite material with initial (process-induced residual) stresses. The composite consists of alternating layers of two dissimilar materials. The materials are assumed nonlinearly elastic and described by the Murnaghan potential. For simulation of wave propagation, a problem is formulated within the framework of the three-dimensional linearized theory of elasticity for finite prestrains. It is established that the relative velocities of waves depend linearly on small prestresses. In some composite materials, however, the thicknesses of the layers may be in a ratio such that the wave velocities are independent of the prestress level.

AB - The paper is concerned with longitudinal and transverse waves propagating at a right angle to the layers of a nanocomposite material with initial (process-induced residual) stresses. The composite consists of alternating layers of two dissimilar materials. The materials are assumed nonlinearly elastic and described by the Murnaghan potential. For simulation of wave propagation, a problem is formulated within the framework of the three-dimensional linearized theory of elasticity for finite prestrains. It is established that the relative velocities of waves depend linearly on small prestresses. In some composite materials, however, the thicknesses of the layers may be in a ratio such that the wave velocities are independent of the prestress level.

KW - Composite materials

KW - Initial stress

KW - Longitudinal and transverse waves

KW - Nanocomposites

KW - Three-dimensional linearized theory of elasticity

KW - Wave velocities

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Influence of prestress on the velocities of plane waves propagating normally to the layers of nanocomposites

Abstract

Keywords

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