Search Results - "Odegard, G.M."

Multiscale modeling of carbon fiber/carbon nanotube/epoxy hybrid composites: Comparison of epoxy matrices by Radue, M.S., Odegard, G.M.

“…This study addresses the multiscale modeling of hybrid composites composed of carbon fibers (CFs), carbon nanotubes (CNTs), and three different epoxy systems…”
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Molecular modeling of EPON-862/graphite composites: Interfacial characteristics for multiple crosslink densities by Hadden, C.M., Jensen, B.D., Bandyopadhyay, A., Odegard, G.M., Koo, A., Liang, R.

“…Many thermo-mechanical properties of fiber-reinforced epoxy composites strongly depend on the conditions at the fiber/matrix interface. Because it is difficult…”
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Multiscale modeling and analysis of graphene nanoplatelet/carbon fiber/epoxy hybrid composite by Aluko, O., Gowtham, S., Odegard, G.M.

“…The elastic response of Graphene Nano Platelet/carbon fiber/epoxy hybrid composite was investigated using multiscale modeling and analysis. The importance of…”
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Physical aging of epoxy polymers and their composites by Odegard, G. M., Bandyopadhyay, A.

“…Exposure to extended periods of sub‐Tg temperatures causes physical changes in the molecular structure of epoxy resins and epoxy‐based materials to occur…”
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The development of multiscale models for predicting the mechanical response of GNP reinforced composite plate by Aluko, O., Gowtham, S., Odegard, G.M.

“…A multiscale analysis was developed for the evaluation of graphene nanoplatelet (GNP)/carbon fiber/epoxy materials and the laminated composite plate…”
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Mechanical properties of graphene nanoplatelet/carbon fiber/epoxy hybrid composites: Multiscale modeling and experiments by Hadden, C.M., Klimek-McDonald, D.R., Pineda, E.J., King, J.A., Reichanadter, A.M., Miskioglu, I., Gowtham, S., Odegard, G.M.

“…Because of the relatively high specific mechanical properties of carbon fiber/epoxy composite materials, they are often used as structural components in…”
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Comparing the mechanical response of di‐, tri‐, and tetra‐functional resin epoxies with reactive molecular dynamics by Radue, Matthew S., Jensen, Benjamin D., Gowtham, S., Klimek‐McDonald, Danielle R., King, Julia A., Odegard, Gregory M.

“…ABSTRACT The influence of monomer functionality on the mechanical properties of epoxies is studied using molecular dynamics (MD) with the Reax Force Field…”
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Constitutive modeling of piezoelectric polymer composites by Odegard, G.M.

“…A new modeling approach is proposed for predicting the bulk electromechanical properties of piezoelectric composites. The proposed model offers the same level…”
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Modeling of the mechanical properties of nanoparticle/polymer composites by Odegard, G.M., Clancy, T.C., Gates, T.S.

“…A continuum-based elastic micromechanics model is developed for silica nanoparticle/polyimide composites with various nanoparticle/polyimide interfacial…”
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Constitutive modeling of nanotube–reinforced polymer composites by Odegard, G.M., Gates, T.S., Wise, K.E., Park, C., Siochi, E.J.

“…In this study, a technique is presented for developing constitutive models for polymer composite systems reinforced with single-walled carbon nanotubes (SWNT)…”
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The stress–strain behavior of polymer–nanotube composites from molecular dynamics simulation by Frankland, S.J.V., Harik, V.M., Odegard, G.M., Brenner, D.W., Gates, T.S.

“…Stress–strain curves of polymer–carbon nanotube composites generated from molecular dynamics simulations of a single-walled carbon nanotube embedded in…”
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Accelerated hydrothermal aging of cycloaliphatic epoxy/graphene nanoparticle composites by Tomasi, J.M., Helman, I.D., Pisani, W.A., Klimek-McDonald, D.R., Chinkanjanarot, S., Miskioglu, I., King, J.A., Odegard, G.M.

“…Cycloaliphatic epoxy (CE) resin systems are of primary interest in applications that require improved resistance to harsh conditions relative to other epoxy…”
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Computational materials: Multi-scale modeling and simulation of nanostructured materials by Gates, T.S., Odegard, G.M., Frankland, S.J.V., Clancy, T.C.

“…The paper provides details on the current approach to multi-scale modeling and simulation of advanced materials for structural applications. Examples are given…”
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Nonlinear multiscale modeling of polymer materials by Valavala, P.K., Clancy, T.C., Odegard, G.M., Gates, T.S.

“…In this study, a hyperelastic multiscale modeling technique is used to predict elastic properties of polycarbonate and polyimide polymer systems using a set of…”
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Constitutive modeling of skeletal muscle tissue with an explicit strain-energy function by Odegard, G M, Donahue, T L Haut, Morrow, D A, Kaufman, K R

“…While much work has previously been done in the modeling of skeletal muscle, no model has, to date, been developed that describes the mechanical behavior with…”
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Multiscale modeling of polymer materials using a statistics-based micromechanics approach by Valavala, P.K., Clancy, T.C., Odegard, G.M., Gates, T.S., Aifantis, E.C.

“…A large number of possible polymer chain conformations exist for a given volume of an amorphous polymer. The prediction of elastic properties of a polymer must…”
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Comparison of two models of SWCN polymer composites by Odegard, G.M, Pipes, R.B, Hubert, P

“…Two approaches for predicting elastic properties of SWCN/polymer composites, equivalent-continuum modeling and the self-similar approach, are presented and…”
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Nanoindentation of the insertional zones of human meniscal attachments into underlying bone by Hauch, K.N., Oyen, M.L., Odegard, G.M., Haut Donahue, T.L.

“…The fibrocartilagenous knee menisci are situated between the femoral condyles and tibia plateau and are primarily anchored to the tibia by means of four…”
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An elastic micropolar mixture theory for predicting elastic properties of cellular materials by Elangovan, S., Altan, B.S., Odegard, G.M.

“…An efficient modeling approach is established to predict the elastic response of cellular materials with distributions of cell geometries. The approach does…”
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Structure-property relationships in polymer composites with micrometer and submicrometer graphite platelets by CHASIOTIS, I, CHEN, Q, ODEGARD, G. M, GATES, T. S

“…The objectives of this work were (a) to investigate the influence of micrometer and submicrometer scale graphite platelets of different aspect ratios and…”
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