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    Dynamic Distribution of Displacement and Stress Considerations in the Ultrasonic Immersion Nondestructive Evaluation of Multilayered Plates

    Source: Journal of Engineering Materials and Technology:;1990:;volume( 112 ):;issue: 003::page 260
    Author:
    A. H. Nayfeh
    ,
    T. W. Taylor
    DOI: 10.1115/1.2903320
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: A unified theoretical treatment is presented for the calculation of displacements and stresses within multilayered media subjected to incident ultrasonic waves. The wave is supposed to be incident from water, at an arbitrary angle, upon a plate consisting of an arbitrary number of different isotropic material layers. In the first part of the analysis displacements and stresses are determined as functions of position within the plate while all layer interfaces are assumed to be rigidly bonded. A smooth interface is subsequently introduced to simulate debonding of two material layers. The composite plate is assumed to be bounded at the bottom by either a free surface, a fluid half-space or an elastic solid half-space. A byproduct of the analysis is the derivation of the reflection and transmission coefficients for the systems. Extensive numerical results are given in order to delineate the influence of the plate material orderings, layer thicknesses and interfacial conditions on the displacements and stresses within the plate. The model developed here will be of value in material characterization and in the nondestructive evaluation of advanced material applications.
    keyword(s): Plates (structures) , Displacement , Nondestructive evaluation , Stress , Elastic half space , Functions , Ultrasonic waves , Water , Fluids , Composite materials , Reflection , Advanced materials AND Waves ,
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      Dynamic Distribution of Displacement and Stress Considerations in the Ultrasonic Immersion Nondestructive Evaluation of Multilayered Plates

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    http://yetl.yabesh.ir/yetl1/handle/yetl/106980
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    contributor authorA. H. Nayfeh
    contributor authorT. W. Taylor
    date accessioned2017-05-08T23:32:42Z
    date available2017-05-08T23:32:42Z
    date copyrightJuly, 1990
    date issued1990
    identifier issn0094-4289
    identifier otherJEMTA8-26937#260_1.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/106980
    description abstractA unified theoretical treatment is presented for the calculation of displacements and stresses within multilayered media subjected to incident ultrasonic waves. The wave is supposed to be incident from water, at an arbitrary angle, upon a plate consisting of an arbitrary number of different isotropic material layers. In the first part of the analysis displacements and stresses are determined as functions of position within the plate while all layer interfaces are assumed to be rigidly bonded. A smooth interface is subsequently introduced to simulate debonding of two material layers. The composite plate is assumed to be bounded at the bottom by either a free surface, a fluid half-space or an elastic solid half-space. A byproduct of the analysis is the derivation of the reflection and transmission coefficients for the systems. Extensive numerical results are given in order to delineate the influence of the plate material orderings, layer thicknesses and interfacial conditions on the displacements and stresses within the plate. The model developed here will be of value in material characterization and in the nondestructive evaluation of advanced material applications.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleDynamic Distribution of Displacement and Stress Considerations in the Ultrasonic Immersion Nondestructive Evaluation of Multilayered Plates
    typeJournal Paper
    journal volume112
    journal issue3
    journal titleJournal of Engineering Materials and Technology
    identifier doi10.1115/1.2903320
    journal fristpage260
    journal lastpage265
    identifier eissn1528-8889
    keywordsPlates (structures)
    keywordsDisplacement
    keywordsNondestructive evaluation
    keywordsStress
    keywordsElastic half space
    keywordsFunctions
    keywordsUltrasonic waves
    keywordsWater
    keywordsFluids
    keywordsComposite materials
    keywordsReflection
    keywordsAdvanced materials AND Waves
    treeJournal of Engineering Materials and Technology:;1990:;volume( 112 ):;issue: 003
    contenttypeFulltext
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