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Yves Chemisky
Researcher at Arts et Métiers ParisTech
Publications - 66
Citations - 1797
Yves Chemisky is an academic researcher from Arts et Métiers ParisTech. The author has contributed to research in topics: Shape-memory alloy & Homogenization (chemistry). The author has an hindex of 19, co-authored 66 publications receiving 1447 citations. Previous affiliations of Yves Chemisky include University of Bordeaux & École Normale Supérieure.
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Constitutive model for the numerical analysis of phase transformation in polycrystalline shape memory alloys
TL;DR: In this article, a thermomechanical constitutive model of shape memory alloys (SMAs) is proposed to capture the smooth transition in the thermal and mechanical responses often observed as the martensitic transformation is initiated and completed.
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Constitutive model for shape memory alloys including phase transformation, martensitic reorientation and twins accommodation
TL;DR: In this paper, a phenomenological 3D-model based on thermodynamics of irreversible processes is presented for NiTi shape memory alloys (SMAs), where three main physical mechanisms are considered: the martensitic transformation, the reorientation of martensite and the inelastic accommodation of twins in self-accommodated Martensite.
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Review and perspectives: shape memory alloy composite systems
TL;DR: A comprehensive overview of advances with regard to SMA composites and devices utilizing them is pursued, with emphasis on identifying the characteristic responses and properties of these material systems as well as on comparing the various modeling methodologies for describing their response.
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Multiscale fatigue damage characterization in short glass fiber reinforced polyamide-66
TL;DR: In this paper, the authors studied the fatigue damage behavior of injection molded 30-wt% short glass fiber reinforced polyamide-66 composite (PA66/GF30) and analyzed the evolution of dynamic modulus, hysteresis area, cyclic creep and temperature during fatigue tests.
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In situ damage mechanisms investigation of PA66/GF30 composite: Effect of relative humidity
TL;DR: In this paper, the damage initiation in the form of fiber-matrix debonding occurs at fiber ends and more generally at locations where fibers are close to each other due to the generation of local stress concentration.