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Relations and Interactions between Twinning and Grain Boundaries in Hexagonal Close-Packed StructuresBarrett, Christopher Duncan 17 May 2014 (has links)
Improving the formability and crashworthiness of wrought magnesium alloys are the two biggest challenges in current magnesium technology. Magnesium is the best material candidate for enabling required improvements in fuel economy of combustion engines and increases in ranges of electric vehicles. In hexagonal closed-packed (HCP) structures, effects of grain size/morphology and crystallographic texture are particularly important. Prior research has established a general understanding of the dependences of strength and strain anisotropy on grain morphology and texture. Unfortunately, deformation, recrystallization, and grain growth strategies that control the microstructures and textures of cubic metals and alloys have not generally worked for HCPs. For example, in Magnesium, the deformation texture induced by primary forming operations (rolling, extrusion, etc.) is not randomized by recrystallization and may strengthen during grain growth. A strong texture reduces formability during secondary forming (stamping, bending, hemming etc.) Thus, the inability to randomize texture has impeded the implementation of magnesium alloys in engineering applications. When rare earth solutes are added to magnesium alloys, distinct new textures are derived. However, rare earth texture derivation remains insufficiently explained. Currently, it is hypothesized that unknown mechanisms of alloy processing are at work, arising from the effects of grain boundary intrinsic defect structures on microstructural evolution. This dissertation is a comprehensive attempt to identify formal methodologies of analyzing the behavior of grain boundaries in magnesium. We focus particularly on twin boundaries and asymmetric tilt grain boundaries using molecular dynamics. We begin by exploring twin nucleation in magnesium single crystals, elucidating effects of heterogeneities on twin nucleation and their relationships with concurrent slip. These efforts highlighted the necessity of imperfections to nucleate {10-12} twins. Subsequent studies encountered the importance of deformation faceting on the high mobility of {10- 12} and stabilization of observed twin mode boundaries. Implementation of interfacial defect theory was necessary to decipher the complex mechanisms observed which govern the development of defects in grain boundaries, disconnection pile-up, facet nucleation, interfacial disclination nucleation, disconnection movements, disconnection transformation across interfacial disclinations, crossaceting, and byproducts of interactions between lattice dislocations and grain boundaries.
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Influence de la plasticité sur le délaminage et le flambage de films minces déposés sur substrats / Influence of the placity on the delamination and the buckling of thin films deposited on substratesRuffini, Antoine 09 October 2013 (has links)
Ce travail de thèse a pour objet l'étude de l'influence de la plasticité sur le délaminage et le flambage de films minces déposés sur substrats. Il repose sur une approche mixte combinant des simulations atomistiques et des calculs analytiques basés sur la théorie des plaques minces de Föppl-von Kármán (FvK). Les simulations ont permis de caractériser, au cours de la formation d'une ride droite, un mécanisme de glissement localisé dans l'interface en pied de cloque entraînant une augmentation de la déflexionmaximale de la ride. Ce mécanisme de glissement est également présent lorsque le délaminage piloté par le flambage du film mince est lui aussi observé. En l'intégrant dans le modèle élastique de FvK, la forme de la ride droite ainsi que le processus de délaminage ont ensuite été caractérisés. Le bon accord trouvé entre les simulations atomistiques et le modèle explique notamment le délaminage des cloques sans introduire de dépendance entre l'énergie d'adhésion et la mixité modale. L'initiation du cloquage à partir d'une marche d'interface créée par des dislocations venant du substrat a également été étudiée.Les simulations révèlent qu'avant flambage, le film se décolle à la fois sur le haut et sur le bas de la marche. Un mécanisme de glissement est là aussi identifié. Une déformation critique de flambage qui tient compte de ces phénomènes a été déterminée en modélisant le film mince sur la marche dans le formalisme de FvK. Les résultats des simulations couplés au modèle élastique expliquent, comme il est par ailleurs observé expérimentalement, pourquoi les cloques se forment préférentiellement au-dessus dedéfauts tels que des marches. / The purpose of this thesis is to study the influence of plasticity on the delamination and buckling of thin films deposited on substrates. Combining atomistic simulations and analytic calculations performed in the framework of continuum mechanics, the microscopic processes consisting in the sliding of the atoms located at the base of the blister has been characterized during the formation of a straight-sided blister. This sliding effect has been found to increase the maximum deflection of the buckling structure. It also modifies the delamination process of the interface. Taking into account this sliding into the Föppl-von Kármán theory of thin plates (FvK), the shape of the straight-sided blister and the delamination process have been then characterized. The agreement found between the atomistic simulations and the model explains how the buckling-driven delaminationproceeds without introducing any dependence between the adhesion energy and the mode of mixity. The initiation of the buckling from a dislocation-induced interface step has been also investigated. The simulations show that, before buckling, the film delaminates on both sides of the step and a sliding mechanism is also observed. A critical buckling strain accounting for thesephenomena has been analytically determined in the FvK framework. The simulation results and the elastic model explain, as it has also been experimentally observed, why blistering preferentially occurs above step-like defects.
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