Nonlinear waves in approximately constrained materials

International Seminar Day on Diffraction, 2003. Proceedings. Pub Date : 2003-06-24 DOI:10.1109/DD.2003.238229
F. Pastrone, M. Tonon
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Abstract

In this paper, we give a general treatment of the propagation of nonlinear acceleration waves in approximately constrained elastic materials. By means of a suitable perturbative scheme, namely a Laurent expansion for the constitutive functions, we can derive the characteristic of acceleration waves, speeds and amplitudes, for elastic bodies with first and second-order poles. The theory is applied to St. Venant-Kirchhoff materials, which can be used to approximate rigid or incompressible bodies, to isotropic, anisotropic materials and to a model for unidirectionally fiber-reinforced composites.
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近似约束材料中的非线性波
本文给出了非线性加速度波在近似约束弹性材料中传播的一般处理方法。通过适当的微扰格式,即本构函数的劳伦展开式,我们可以导出具有一阶和二阶极点的弹性体的加速度波的特性、速度和振幅。该理论适用于St. Venant-Kirchhoff材料,可用于近似刚性或不可压缩体,各向同性,各向异性材料和单向纤维增强复合材料的模型。
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International Seminar Day on Diffraction, 2003. Proceedings.
International Seminar Day on Diffraction, 2003. Proceedings.
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