E. Le Gal La Salle scite author profile

E. Le Gal La Salle

4Publications

27Citation Statements Received

68Citation Statements Given

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Affiliations

IMT Atlantique, Institut National des Sciences Appliquées de Lyon

Publications

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On modelling the growth and the orientation changes of ellipsoidal voids in a rigid plastic matrix

Bordreuil¹,

Boyer

Salle

2003

Modelling Simul. Mater. Sci. Eng.

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A phenomenological ductile damage model is developed to take into account the growth and the changes of orientation of defects in a undamaged material matrix under large plastic straining. This constitutive model is based on a skew-symmetric tensor-valued function, originally presented by Wang C C (1970 New theorem for isotropic function part 1 and part 2 Arch. Rational Mech. Anal. 36 166-223) and modified for anisotropic functions by Boehler J P (1978 Lois de comportement anisotrope des milieux continus J. Mécanique 17 153-90). A finite element model of a three-dimensional unit cell containing a tilted ellipsoidal void is used to identify the constitutive parameters of the proposed model. Then, this law of orientation change is compared with the two-dimensional model of Bilby B A and Kolbuszewski M L (1977 The finite deformation of an inhomogeneity in two-dimensionnal slow viscous incompressible flow Proc. R. Soc. A 355 335-53) deduced from the original work of Eshelby J D (1957 The determination of the elastic field of an ellipsoidal innclusion and related problem Proc. R. Soc. A 241 376-96). In the proposed ductile damage model, the radius changes of the void are based on the modified version of the Rice and Tracey void growth law presented by Thomason and adapted for the transformation of an ellipsoidal void of any orientation in the sound matrix. The new proposals are checked with different non-linear finite element analyses.

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Polymerisation of an industrial resin monitored by infrared fiber evanescent wave spectroscopy

Anne

Salle

Bureau

et al. 2009

Sensors and Actuators B: Chemical

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An orthotropic specific damage model with inclusion consideration

Bordreuil

Salle

Boyer

2003

Journal of Materials Processing Technology

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Experiments, numerical models and optimization of carbon-epoxy plates damped by a frequency-dependent interleaved viscoelastic layer

Pastor

Sourne

Salle³

et al. 2021

Mechanics of Advanced Materials and Structures

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The research work presented in this paper aims to optimize the dynamic response of a carbon-epoxy plate by including into the laminate one frequency-dependent interleaved viscoelastic layer. To keep an acceptable bending stiffness, some holes are created in the viscoelastic layer, thus facilitating the resin through layer penetration during the co-curing manufacturing process. Plates including (or not) one perforated (or non-perforated) viscoelastic layer are manufactured and investigated experimentally and numerically. First, static and dynamic tests are performed on sandwich coupons to characterize the stiffness and damping properties of the plates in a given frequency range. Resulting mechanical properties are then used to setup a finite element model and simulate the plate dynamic response. In parallel, frequency response measurements are car-ried out on the manufactured plates, then successfully confronted to the numerical results. Finally, a design of experiments is built based on a limited number on numerical simulations to find the configuration of bridges that maximizes the damping while keeping a stiffness higher than half the stiffness of the equivalent undamped plate.

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E. Le Gal La Salle

On modelling the growth and the orientation changes of ellipsoidal voids in a rigid plastic matrix

Polymerisation of an industrial resin monitored by infrared fiber evanescent wave spectroscopy

An orthotropic specific damage model with inclusion consideration

Experiments, numerical models and optimization of carbon-epoxy plates damped by a frequency-dependent interleaved viscoelastic layer

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