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CP
Camille Perrot
8
Documents
Présentation
My current research activities belong to the fields of multi-scale physics, computational mechanics, structure-property-fabrication relationships of materials, multifunctional materials, and micro(poro)mechanics of porous media. The research is based on fluid flow and transports phenomena within a large range of times and lengths scales. Works oriented towards multi-scale and multi-physics modeling, applicable to various aspects of engineering sciences. Emphasis of my research activities is on studying at the local scale (meso-, micro-, or submicroscopic depending on the case) a material or a system, the goal being to understand and predict its macroscopic behavior, where are situated applications in terms of engineering \[thermal, applied fluid dynamics, poroelasticity, acoustics, biomechanics, micro- and nano- (electro) mechanical systems\].
My current research activities belong to the fields of multi-scale physics, computational mechanics, structure-property-fabrication relationships of materials, multifunctional materials, and micro(poro)mechanics of porous media. The research is based on fluid flow and transports phenomena within a large range of times and lengths scales. Works oriented towards multi-scale and multi-physics modeling, applicable to various aspects of engineering sciences. Emphasis of my research activities is on studying at the local scale (meso-, micro-, or submicroscopic depending on the case) a material or a system, the goal being to understand and predict its macroscopic behavior, where are situated applications in terms of engineering \[thermal, applied fluid dynamics, poroelasticity, acoustics, biomechanics, micro- and nano- (electro) mechanical systems\].
Publications
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Tuning membrane content of sound absorbing cellular foams: Fabrication, experimental evidence and multiscale numerical simulationsMaterials & Design, 2019, 162, pp.345-361. ⟨10.1016/j.matdes.2018.11.023⟩
Article dans une revue
hal-01949817v1
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On the construction of multiscale surrogates for design optimization of acoustical materialsActa Acustica united with Acustica, 2018, 104, pp.1 - 4. ⟨10.3813/AAA.919139⟩
Article dans une revue
hal-01683381v1
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Generalized analytic model for rotational and anisotropic metasolidsJournal of Physics Communications, 2018, 2 (3), pp.35035 - 35035. ⟨10.1088/2399-6528/aab5a5⟩
Article dans une revue
hal-01743930v1
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Rotational and anisotropic metasolids: A generalized analytical modelIUTAM Symposium on the acoustic/elastic metamaterials, their design and applications, Jun 2018, Beijing, China
Communication dans un congrès
hal-01818214v1
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A systematic link between microstructure and acoustic properties of foams: A detailed study on the effect of membranesThe 6th Biot Conference on Poromechanics (BiotConf 2017), Jul 2017, Paris, France
Communication dans un congrès
hal-01664267v1
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Developing acoustically effective foams via cellular structureSymposium on the Acoustics of Poro-Elastic Materials (SAPEM 2014), Dec 2014, Stockholm, Sweden
Communication dans un congrès
hal-01163940v1
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Multi-scale acoustics of partially open-cell poroelastic foams: Linear elastic properties derivation from microstructures representative of transport parametersAcoustics 2013 New Delhi, Nov 2013, New Delhi, India
Communication dans un congrès
hal-01664339v1
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Modeling of multi-scale and multi- physical properties of acoustic materialsAcoustics [physics.class-ph]. Université Paris-Est, 2014
HDR
tel-01112878v2
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