Wave motion in elastic solids

Elastic stress wave theory is developed and the stress waves in the impacted plate are examined in the paper. Generalized linear elasticity is adopted where the couple stress and curvature tensor are both deviatoric tensors and they meet a linear constitutive relation. It is found that there exist volumetric, rotational, and deviatoric waves in the generalized elastic solids. However, for macro-scale elastic solids only two wave modes, namely a volumetric wave and a deviatoric wave should be taken into account. Wave motion in plate impact tests is studied that a volumetric wave and a deviatoric wave are proposed. A set of exact solutions is attained for elastic stress waves in an impact plate. Excitation of stress waves at impact surface and reflection at free surface are formulated. Propagation of stress waves in the plate is analyzed in the waveforms. The predicted stress history in a ceramic plate under impact is agreed very well with the experiment measurement.

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Wave motion in elastic solids 1975

Journal of Sound and Vibration ◽

10.1016/0022-460x(75)90231-x ◽

1975 ◽

Vol 43 (4) ◽

pp. 721-722

Author(s):

G. Eason

Keyword(s):

Wave Motion ◽

Elastic Solids

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Book Reviews : Wave Motion in Elastic Solids: K. F. Graff Ohio State University Press, 1975

The Shock and Vibration Digest ◽

10.1177/058310247901100605 ◽

1979 ◽

Vol 11 (6) ◽

pp. 26-26

Author(s):

J.J. Dick

Keyword(s):

Wave Motion ◽

Ohio State University ◽

State University ◽

Elastic Solids

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A Note on Unsteady Inhomogeneous Extensions of a Class of Neo-Hookean Elastic Solids

Mathematical Proceedings of the Royal Irish Academy ◽

10.3318/pria.2004.104.1.47 ◽

2004 ◽

Vol 104 (1) ◽

pp. 47-57 ◽

Cited By ~ 1

Author(s):

K. R. Rajagopal

Keyword(s):

Elastic Solids

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A ROOM ACOUSTIC SIMULATION SYSTEM CONSIDERED WAVE MOTION CHARACTERISTIC

AIJ Journal of Technology and Design ◽

10.3130/aijt.2.121 ◽

1996 ◽

Vol 2 (2) ◽

pp. 121-126 ◽

Cited By ~ 2

Author(s):

Masayoshi TSUBOI ◽

Mitstoshi WATANABE ◽

Shigeru HIRANO

Keyword(s):

Wave Motion ◽

Simulation System ◽

Acoustic Simulation ◽

Motion Characteristic

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ИССЛЕДОВАНИЯ АКУСТИЧЕСКИХ ХАРАКТЕРИСТИК ВЕРХНЕГО СЛОЯ МОРЯ МЕТОДОМ МНОГОЧАСТОТНОГО АКУСТИЧЕСКОГО ЗОНДИРОВАНИЯ

Podvodnye issledovaniia i robototehnika ◽

10.37102/24094609.2020.31.1.006 ◽

2020 ◽

Author(s):

V.A. Bulanov ◽

I.V. Korskov ◽

A.V. Storozhenko ◽

S.N. Sosedko

Keyword(s):

High Frequency ◽

Wave Motion ◽

High Spatial Resolution ◽

Wind Waves ◽

Acoustic Parameter ◽

Sea Surface ◽

Near Surface ◽

Acoustical Properties ◽

Acoustic Spectroscopy ◽

Sea Bottom

Описано применение акустического зондирования для исследования акустических характеристик верхнего слоя моря с использованием широкополосных остронаправленных инвертированных излучателей,устанавливаемых на дно. В основу метода положен принцип регистрации обратного рассеяния и отраженияот поверхности моря акустических импульсов с различной частотой, позволяющий одновременно измерятьрассеяние и поглощение звука и нелинейный акустический параметр морской воды. Многочастотное зондирование позволяет реализовать акустическую спектроскопию пузырьков в приповерхностных слоях моря,проводить оценку газосодержания и получать данные о спектре поверхностного волнения при различных состояниях моря вплоть до штормовых. Применение остронаправленных высокочастотных пучков ультразвукапозволяет разделить информацию о планктоне и пузырьках и определить с высоким пространственным разрешением структуру пузырьковых облаков, образующихся при обрушении ветровых волн, и структуру планктонных сообществ. Участие планктона в волновом движении в толще морской воды позволяет определитьпараметры внутренних волн спектр и распределение по амплитудам в различное время.This paper represents the application of acoustic probingfor the investigation of acoustical properties of the upperlayer of the sea using broadband narrow-beam invertedtransducers that are mounted on the sea bottom. Thismethod is based on the principle of the recording of thebackscattering and reflections of acoustic pulses of differentfrequencies from the sea surface. That simultaneouslyallows measuring scattering and absorption of the soundand non-linear acoustic parameter of seawater. Multifrequencyprobing allows performing acoustic spectroscopy ofbubbles in the near-surface layer of the sea, estimating gascontent, and obtaining data on the spectrum of the surfacewaves in various states of the sea up to a storm. Utilizationof the high-frequency narrow ultrasound beams allows us toseparate the information about plankton and bubbles and todetermine the structure of bubble clouds, created during thebreaking of wind waves, along with the structure of planktoncommunities with high spatial resolution. The participationof plankton in the wave motion in the seawater columnallows determining parameters of internal waves, such asspectrum and distribution of amplitudes at different times.

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