C.H. Daros scite author profile

C.H. Daros

5Publications

53Citation Statements Received

66Citation Statements Given

How they've been cited

124

How they cite others

Affiliations

Universidade Estadual de Campinas, Technische Universität Braunschweig, Universidade de São Paulo

Publications

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Torsional wave propagation in a pre-stressed hyperelastic annular circular cylinder

Shearer

Abrahams

Parnell

et al. 2013

The Quarterly Journal of Mechanics and Applied Mathematics

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SummaryWe consider torsional wave propagation in a pre-stressed annular cylinder. Hydrostatic pressure is applied to the inner and outer surfaces of an incompressible hyperelastic annular cylinder, of circular cross-section, whose constitutive behaviour is governed by a Mooney-Rivlin strain energy function. The pressure difference creates an inhomogeneous deformation field, which modifies the inner and outer radii of the annular cylinder. We wish to determine the effect that this pre-stress, and a given axial stretch, has on the propagation of small-amplitude torsional waves through the medium. We use the theory of small-on-large to deduce the linear wave equation that governs incremental torsional waves and then determine the dispersion relation for the prestressed annulus by using an approximation procedure (the Liouville-Green transformation). We show that this scheme compares well to numerical solutions except in regions very close to turning points (of the transformed ordinary differential equation). In particular, we find that the inhomogeneous deformation makes the coefficients of the governing ordinary differential equation spatially dependent and affects the location of the roots of the dispersion relation. We observe that, if the pressure on the outer surface of the annular cylinder is greater (smaller) than that on the inner, then the cut-on frequencies are spaced further apart (closer) than they would be in the stress-free case. This result could potentially be used to tune the propagation characteristics of the cylinder over a range of frequencies.

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A fundamental solution for SH-waves in a class of inhomogeneous anisotropic media

Daros¹

2008

International Journal of Engineering Science

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On modelling SH‐waves in a class of inhomogeneous anisotropic media via the Boundary Element Method

Daros

2010

Z Angew Math Mech

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We present here a Boundary Element Method (BEM) implementation for SH harmonic waves in a class of inhomogeneous anisotropic media. The inhomogeneity is assumed to be the same not only for the stiffnesses, but also for the density. The implementation is based on a closed form fundamental solution for SH waves derived by Daros [C.H. Daros, A fundamental solution for SH-waves in class of inhomogeneous anisotropic media, Int. J. Eng. Science 46 (2008) 809-817]. We show numerical results obtained by the traditional boundary integral equation. Moreover, the non-hypersingular traction based BEM is also implemented, allowing the modelling of cracks in inhomogeneous anisotropic media. We obtain numerical results for the stress intensity factors (SIF) which are compared to previous published results.

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Green’s function for SH-waves in inhomogeneous anisotropic elastic solid with power-function velocity variation

Daros

2013

Wave Motion

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Dynamic fundamental solutions for transversely isotropic piezoelectric materials of crystal class 6 mm

Daros

Antes

2000

International Journal of Solids and Structures

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C.H. Daros

Torsional wave propagation in a pre-stressed hyperelastic annular circular cylinder

A fundamental solution for SH-waves in a class of inhomogeneous anisotropic media

On modelling SH‐waves in a class of inhomogeneous anisotropic media via the Boundary Element Method

Green’s function for SH-waves in inhomogeneous anisotropic elastic solid with power-function velocity variation

Dynamic fundamental solutions for transversely isotropic piezoelectric materials of crystal class 6 mm

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