Your search keyword '"Hammi, Y."' showing total 4 results

1. Compressive behavior of a turtle’s shell: Experiment, modeling, and simulation.

Author

Damiens, R., Rhee, H., Hwang, Y., Park, S.J., Hammi, Y., Lim, H., and Horstemeyer, M.F.

Subjects

MATERIALS compression testing, STRUCTURAL shells, TURTLES, SIMULATION methods & models, FINITE element method, POROUS materials, METAL foams

Abstract

Abstract: The turtle’s shell acts as a protective armor for the animal. By analyzing a turtle shell via finite element analysis, one can obtain the strength and stiffness attributes to help design man-made armor. As such, finite element analysis was performed on a Terrapene carolina box turtle shell. Experimental data from compression tests were generated to provide insight into the scute through-thickness behavior of the turtle shell. Three regimes can be classified in terms of constitutive modeling: linear elastic, perfectly inelastic, and densification regions, where hardening occurs. For each regime, we developed a model that comprises elasticity and densification theory for porous materials and obtained all the material parameters by correlating the model with experimental data. The different constitutive responses arise as the deformation proceeded through three distinctive layers of the turtle shell carapace. Overall, the phenomenological stress–strain behavior is similar to that of metallic foams. [Copyright &y& Elsevier]

Published

2012

2. Damage Modeling in Metal Forming Processes

Author

Saanouni, K., Nesnas, K., and Hammi, Y.

Abstract

Fully coupled constitutive equations accounting for isotropic hardening as well as the ductile isotropic damage are implemented into the special purpose finite element code for metal forming simulation. First, the formulation of the fully coupled constitutive equations in the framework of the thermodynamics of irreversible processes with state variables is presented. The associated numerical aspects are then presented and discussed using the implicit integration schemes. The numerical implementation of the damage is made in such a manner that the calculations can be executed with or without damage effect, i.e., coupled or uncoupled calculations. Several numerical results are presented discussing the capability of the model to predict the damage initiation and growth during metal forming processes. For some geometrically simple examples, comparisons between coupled and uncoupled solutions are presented. The proposed methodology is then applied to numerically simulate various metal forming processes in order to predict the damage initiation.

Published

2000

3. Apport du bilan urodynamique dans la prise en charge des valves de l’urètre postérieur de l’enfant

Author

Baati, R., Hammi, Y., Ferjani, M., Jallouli, M., and Gargah, T.

Abstract

Les dysfonctionnements vésico-sphinctériens peuvent être associés aux valves de l’urètre postérieur (vup). Leur évaluation par un bilan urodynamique (bud) est un paramètre important pour guider la prise en charge thérapeutique.

Published

2018

4. Vessie neurogène non neurogène de l’enfant : facteurs prédictifs de complications uronéphrologiques

Author

Baati, R., Ferjani, M., Hammi, Y., Jallouli, M., and Gargah, T.

Abstract

La dysfonction mictionnelle ou vessie neurogène non neurogène (vnnn) est un dysfonctionnement mictionnel de l’enfant bénin et transitoire dans la majorité des cas. Des formes compliquées de vnnn peuvent exister. Le but de ce travail. Notre objectif a été d’identifier les complications uronéphrologiques des vnnn et déterminer les facteurs prédictifs de leur survenue.

Published

2018