A Spring-Layer Model for a Bi-Layered Plate-Strip with Initial Stress Through Imperfect Contact Interface

IF 0.9 Q4 ACOUSTICS Sound and Vibration Pub Date : 2019-01-01 DOI:10.32604/sv.2019.04087
Ahmet Daşdemir
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引用次数: 3

Abstract

In this paper, we present our report on the forced vibration of a bilayered plate-strip with initial stress resting on a rigid foundation induced by a time-harmonic force. The investigation is carried out according to the piecewise homogeneous body model with utilizing the three-dimensional linearized theory of elastic waves in initially stressed bodies (TLTEWISB). The materials of the body are chosen to be linearly elastic, homogeneous, and isotropic. The interface between the layers is assumed to be imperfect, and is simulated by the springlayer model. A similar degree of imperfection on the interface is realized in the normal and tangential directions. The mathematical model for the problem under consideration is designed, and the system of the equations of motion is approximately solved by employing the finite element method (FEM). The numerical results explaining the influence of the parameter that characterizes the degree of corresponding imperfectness on the dynamic response of the plate-strip are presented. In particular, we demonstrate that the distributions of the normal stress become flat, as the normal-spring parameter increases.
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非完全接触界面下具有初始应力的双层板带的弹簧层模型
在本文中,我们报告了在刚性基础上具有初始应力的双层板带在时谐力诱导下的强迫振动。根据分段均质体模型,利用初应力体弹性波三维线性化理论(TLTEWISB)进行了研究。车身的材料被选择为线性弹性,均匀和各向同性。假设层与层之间的界面是不完全的,并采用弹性层模型进行模拟。在法向和切向上实现了类似程度的界面缺陷。设计了该问题的数学模型,并采用有限元法近似求解了运动方程组。给出了表征相应缺陷程度的参数对板带动态响应影响的数值结果。特别是,我们证明,随着法向弹簧参数的增加,正应力的分布变得平坦。
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来源期刊
Sound and Vibration
Sound and Vibration 物理-工程:机械
CiteScore
1.50
自引率
33.30%
发文量
33
审稿时长
>12 weeks
期刊介绍: Sound & Vibration is a journal intended for individuals with broad-based interests in noise and vibration, dynamic measurements, structural analysis, computer-aided engineering, machinery reliability, and dynamic testing. The journal strives to publish referred papers reflecting the interests of research and practical engineering on any aspects of sound and vibration. Of particular interest are papers that report analytical, numerical and experimental methods of more relevance to practical applications. Papers are sought that contribute to the following general topics: -broad-based interests in noise and vibration- dynamic measurements- structural analysis- computer-aided engineering- machinery reliability- dynamic testing
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