A Preliminary Study on Damage Wave in Elastic-brittle Materials

Lu, Jin Tao; Zhang, Xi; Mai, Yiu‐Wing

doi:10.1177/1056789505045934

Cited by 12 publications

(7 citation statements)

References 34 publications

(70 reference statements)

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“…Further, Ju et al (2006) considers the first-order elastoplastic damage mechanics for fiber-reinforced composites with evolutionary complete fiber debonding; and Berryman (2006) proposes estimates and rigorous bounds on pore-fluid enhanced shear modulus in pore-fluid enhanced shear modulus in poroelastic media with hard and soft anisotropy. For dynamic damage wave in elastic-brittle materials, we refer to Lu (2005); for low-speed impact damage of heterogeneous two-layer materials, we refer to Xu and Rosakis (2005); and for high strain rate failure process of unidirectional SiC f -Al composites, we refer to Zhou et al (2005).…”

Section: Introductionmentioning

confidence: 99%

A Three-dimensional Stress Analysis of a Penny-shaped Crack Interacting with a Spherical Inclusion

Lee

2007

International Journal of Damage Mechanics

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A three-dimensional elastic stress analysis is performed on an infinite solid to study the interaction between a penny-shaped crack and a spherical inclusion. In our derivation, a two-step superposition scheme is utilized to obtain the stress field over the imaginary crack site. The Duhamel—Neuman analogy is employed to transform an elasticity problem of a heterogeneous solid into an equivalent problem of a homogeneous solid in which the inclusion is replaced by the void and the boundary conditions modified accordingly. The effect of the inclusion and the crack—inclusion interaction on crack propagation is interpreted in terms of the stress intensity factor for a penny-shaped crack. Finally, the proposed analytical approximations are compared with the noninteracting solution, the exact solution, and other theoretical approximations to validate the current framework.

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Section: Introductionmentioning

confidence: 99%

A Three-dimensional Stress Analysis of a Penny-shaped Crack Interacting with a Spherical Inclusion

Lee

2007

International Journal of Damage Mechanics

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“…Non-local damage mechanics are particularly considered to model shock waves dissipation. For example, Lu et al ( 2005 ) developed a non-local damage approach to model damage wave slow propagation in solids. Non-local damage approaches predict a size effect on macroscopic constitutive behaviour (Pijaudier-Cabot and Bazant 1987 ).…”

Section: Methodsmentioning

confidence: 99%

Contribution to COVID-19 spread modelling: a physical phenomenological dissipative formalism

Limam

Limam²

2020

Biomech Model Mechanobiol

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In this study, we propose an evolution law of COVID-19 transmission. An infinite ordered lattice represents population. Epidemic evolution is represented by a wave-like free spread starting from a first case as an epicentre. Free energy of the virus on a given day is defined equal to the natural logarithm of active infected cases number. We postulate a form of free energy built using thermodynamics of irreversible processes in analogy to isotherm wave propagation in solids and non-local elastic damage behaviour of materials. The proposed expression of daily free energy rate leads to dissipation of propagation introducing a parameter quantifying measures taking by governments to restrict transmission. Entropy daily rate representing disorder produced in the initial system is also explicitly defined. In this context, a simple law of evolution of infected cases as function of time is given in an iterative form. The model predicts different effects on peak of infected cases I max and epidemic period, including effects of population size N, effects of measures taking to restrict spread, effects of population density and effect of a parameter T similar to absolute temperature in thermodynamics. Different effects are presented first. The model is then applied to epidemic spread in Tunisia and compared with data registered since the report of the first confirmed case on March 2, 2020. It is shown that the low epidemic size in Tunisia is essentially due to a low population density and relatively strict restriction measures including lockdown and quarantine.

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“…For the latter, we consider smeared crack method and discrete crack method while for the first, fracture occurs 'naturally'. Although our final goal is to model dynamic (brittle) fracture and fragmentation due to hypervelocity impact (Lu et al, 2005;Xu and Rosakis, 2005), we focus here rather on academic examples. The examples discussed in this article are: simple static mode I test, single-notched four-point-shear test and crack branching problem.…”

Section: Introductionmentioning

confidence: 99%

A Comparative Study of Meshfree Methods for Fracture

Gupta

Rajagopal

Gupta

2010

International Journal of Damage Mechanics

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We study the ability of different meshfree methods for modeling fracture problems. Since our final goal is modeling dynamic fracture, we limit our studies to the most popular methods in this field, that is, the material point method (MPM), smoothed particle hydrodynamics (SPH) and element-free Galerkin (EFG) method. We demonstrate through several examples that Eulerian kernel formulation are not capable of modeling fracture correctly. Moreover, we show that it is not true that for such formulations fracture occurs naturally without any special treatment as often claimed in the literature. Moreover, we show the influence of several fracture criteria and post-localization models on the accuracy of the results.

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A Preliminary Study on Damage Wave in Elastic-brittle Materials

Cited by 12 publications

References 34 publications

A Three-dimensional Stress Analysis of a Penny-shaped Crack Interacting with a Spherical Inclusion

A Three-dimensional Stress Analysis of a Penny-shaped Crack Interacting with a Spherical Inclusion

Contribution to COVID-19 spread modelling: a physical phenomenological dissipative formalism

A Comparative Study of Meshfree Methods for Fracture

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