Tesis sobre el tema "Interphase analysi"
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Filippo, Miriam Di. "Analysis of the chromatin structure in interphase nuclei". Thesis, Open University, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.489905.
Texto completoCimaszewski, Steven A. (Steven Andrew). "Statistical analysis of fiber composite interphase inverse problem". Thesis, Massachusetts Institute of Technology, 1994. http://hdl.handle.net/1721.1/35411.
Texto completoSvensson, Daniel y Tomas Walander. "Evaluation of an Interphase Element using Explicit Finite Element Analysis". Thesis, University of Skövde, School of Technology and Society, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-3895.
Texto completoA research group at University of Skövde has developed an interphase element for implementation in the commercial FE-software Abaqus. The element is using the Tvergaard & Hutchinson cohesive law and is implemented in Abaqus Explicit version 6.7 using the VUEL subroutine. This bachelor degree project is referring to evaluate the interphase element and also highlight problems with the element.
The behavior of the interphase element is evaluated in mode I using Double Cantilever Beam (DCB)-specimens and in mode II using End Notch Flexure (ENF)-specimens. The results from the simulations are compared and validated to an analytical solution.
FE-simulations performed with the interphase element show very good agreement with theory when using DCB- or ENF-specimens. The only exception is when an ENF-specimen has distorted elements.
When using explicit finite element software the critical time step is of great importance for the results of the analyses. If a too long time step is used, the simulation will fail to complete or complete with errors. A feasible equation for predicting the critical time step for the interphase element has been developed by the research group and the reliability of this equation is evaluated.
The result from simulations shows an excellent agreement with the equation when the interphase element governs the critical time step. However when the adherends governs the critical time step the equation gives a time step that is too large. A modification of this equation is suggested.
Maierhofer, Christine. "Etablierung der Vielfarben Interphase FISH Dekonvolutions-Mikroskopie zur Einzelzell-Analyse". Diss., lmu, 2003. http://nbn-resolving.de/urn:nbn:de:bvb:19-16586.
Texto completoLaborie, Marie-Pierre Genevieve. "Investigation of the Wood/Phenol-Formaldehyde Adhesive Interphase Morphology". Diss., Virginia Tech, 2002. http://hdl.handle.net/10919/26411.
Texto completoPh. D.
Giunta, Rachel K. "Durability of Polyimide/Titanium Adhesive Bonds: An Interphase Investigation". Diss., Virginia Tech, 1999. http://hdl.handle.net/10919/29449.
Texto completoPh. D.
Fellah, Clémentine. "Influence de la nature des interfaces carbonées au sein des composites SiC/SiC à renfort Hi-Nicalon S et Tyranno SA3 sur leur comportement mécanique". Thesis, Paris Sciences et Lettres (ComUE), 2017. http://www.theses.fr/2017PSLEM078.
Texto completoSiC/SiC composites including the third generation SiC fibers with pyrocarbon interphase (PyC) are promising candidates to improve the safety of nuclear reactors, especially for core materials such as cladding and to replace metallic alloys for these applications. Their intrinsic refractory properties, their neutron transparency and their microstructural stability when irradiated or exposed to high temperatures make them attractive for nuclear applications. However SiC fibers and SiC matrix are brittle ceramics. The integrity of the structures can be fulfilled only if the composite is damage tolerant and can acquire a pseudo-ductile mechanical behavior. An interphase is deposited between the fibers and the matrix to provide this damage tolerance of SiC/SiC composites.The ability of SiC/SiC composites to sustain damage is dictated by the fiber/matrix (F/M) coupling mode. The intensity of this coupling can be related to many parameters such as the roughness and the chemistry of the surface of the reinforcement. A carbon layer on the fiberssurface was highlighted by High Resolution Transmission Electronic Microscopy (HRTEM) and by physico-chemical analyses. The characteristics of this carbon layer vary with the fabrication process of the fibers. The impact of this carbon layer on the F/M coupling was investigated by the observation of the local damage mechanisms. To elucidate the local bonding modes governing the damage mechanisms at the F/M interface of these SiC/SiC composites, macroscopic mechanical tests have been coupled with observations of structural modifications occurring in the interface region after loading. Understanding the origin of this carbon layer allowed elucidating the local interaction mechanisms according to these studied materials. These mechanisms depend on the carbon structure of the SiC fibers surface which in turn governs the adhesion between this carbon and the PyC interphase. Thanks to this study, a surface treatment on fibers was developed to optimize the mechanical behavior of SiC/SiC composites, whatever the fibrous reinforcement chosen
Elmore, Jennifer Susan. "Dynamic mechanical analysis of graphite/epoxy composites with varied interphases". Thesis, This resource online, 1994. http://scholar.lib.vt.edu/theses/available/etd-10312009-020414/.
Texto completoTillman, Matthew Scott. "Analysis and development of interphase matrices for use in thermosetting composites and adhesives /". Thesis, Connect to this title online; UW restricted, 2002. http://hdl.handle.net/1773/9921.
Texto completoBatty, Elizabeth. "PML nuclear bodies and the spatial analysis of interphase mammalian cell nuclear architecture". Thesis, Imperial College London, 2009. http://hdl.handle.net/10044/1/5573.
Texto completoAndersson, Edvin. "Spectroelectrochemical analysis of the Li-ion battery solid electrolyte interphase using simulated Raman spectra". Thesis, Uppsala universitet, Fasta tillståndets fysik, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-413474.
Texto completoGarapati, Sri Harsha. "Analysis of single fiber pushout test of fiber reinforced composite with a nonhomogeneous interphase". [Tampa, Fla] : University of South Florida, 2009. http://purl.fcla.edu/usf/dc/et/SFE0002951.
Texto completoScala, Ilaria. "Caractérisation d’interphase par des méthodes ultrasonores : applicationaux tissus péri-prothétiques". Thesis, Paris Est, 2018. http://www.theses.fr/2018PESC1107/document.
Texto completoThis thesis focus on the ultrasonic characterization of bone-implant interphase. This region is a transition zone where the osteointegration process (i.e. the healing process of the tissues surrounding the implant) takes place. Thus, this interphase is of crucial importance in the long-term anchorage of the implant, since it depends on the quantity and quality of the surrounding bone tissue. However, other than being a complex medium in constant remodeling, the newly formed bone presents a multiscale and time evolving nature. All these reasons make the characterization of the bone-implant interphase critical and difficult. In this context, ultrasound methods are nowadays widely used in the clinic field because of their ability to give information about the biomechanical properties of bone tissue. On this basis, with the aim of characterizing the mechanical and microstructural properties of the bone-implant interphase by ultrasound methods, it is important to develop and validate mechanical models and signal processing methods. Due to the complexity of the problem, in order to precisely describe the bone tissue surrounding the implant, first an accurate modelling of bone tissue is essential. Thus, the interaction between an ultrasonic wave and bone tissue has been investigated by also taking into account the effects dues to the microstructure. To do this, a generalized continuum modelling has been used. In this context, a transmission/reflection test performed on a poroelastic sample dipped in a fluid enhanced the reliability of the model. The reflected and transmitted pressure fields result to be affected by the microstructure parameters and the results coming from the dispersion analysis are in agreement with those observed in experiments for poroelastic specimens. Then, the problem has been complicated by considering the interphase taking place between the bone and the implant. In this way, we could handle the complexity added by the presence of the newly formed tissue. As already said, the fact that this interphase is a heterogeneous medium, a mixture of both solid and fluid phases whose properties evolve with time is an additional difficulty. Thus, in order to model the interaction of ultrasonic waves with this interphase, a thin layer with elastic and inertial properties has been considered in the model. The effects on the reflection properties of a transition between a homogeneous and a microstructured continuum have been investigated.Therefore, the characterization of the medium also via advanced signal processing techniques is investigated. In particular, the dynamic response due to the ultrasonic excitation of the bone-implant system is analyzed through the multifractal approach. A first analysis based on the wavelet coefficients pointed out a multifractal signature for the signals from both simulations and experiences. Then, a sensitivity study has also shown that the variation of parameters such as central frequency and trabecular bone density does not lead to a change in the response. The originality lies in the fact that it is one of the early efforts to exploit the multifractal approach in the ultrasonic propagation inside a heterogeneous medium
Ghazavizadeh, Akbar. "Modeling and simulation of the micromechanical behavior of semi-crystalline polyethylene including the effect of interphase layer". Thesis, Strasbourg, 2013. http://www.theses.fr/2013STRAD048/document.
Texto completoElastic characterization of the interphase layer in polyethylene is implemented by applying the relationships of two micromechanical approaches, “Extended Composite Inclusion Model” and “Double-Inclusion Method”, to the Monte Carlo molecular simulation data for the interlamellar domain. The results of the two approaches match perfectly. The interphase stiffness lacks the common feature of positive definiteness, which indicates its mechanical instability. Comparison with experimental results endorses the proposed methodology. For the hyperelastic characterization of the interlamellar domain and the interphase layer, the proposed hybrid algorithm consists in applying the constitutive equations of an isotropic, compressible, hyperelastic continuum to the molecular dynamics simulation results of a polyethylene stack. Evolution of the interphase boundaries are introduced as auxiliary variables and the notion of minimizing a set of nonnegative objective functions is employed for parameter identification. The identified hyperelastic parameters for the interlamellar domain arein good agreement with the ones that have been estimated experimentally. Finally, the large, viscoplastic deformation of an aggregate of polyethylene is reexamined. The Gent model adopted for the back stress of the noncrystalline phase, correcting the projection tensor for the modified Taylor approach, and the idea of multilevel optimization are among the contributions made
Goel, Ekta. "A lithium-ion test cell for characterization of electrode materials and solid electrolyte interphase". Master's thesis, Mississippi State : Mississippi State University, 2008. http://library.msstate.edu/etd/show.asp?etd=etd-03062008-081546.
Texto completoSardinha, Eduardo dos Santos [Verfasser], Gunther [Akademischer Betreuer] Wittstock, Rüdiger [Akademischer Betreuer] Beckhaus y Michael [Akademischer Betreuer] Wark. "Reactivity and compositional analysis of the solid electrolyte interphase and the cathode electrolyte interphase in different electrodes for Li-ion batteries / Eduardo, dos Santos Sardinha ; Gunther Wittstock, Rüdiger Beckhaus, Michael Wark". Oldenburg : BIS der Universität Oldenburg, 2019. http://d-nb.info/1190283921/34.
Texto completoSardinha, Eduardo dos Santos Verfasser], Gunther [Akademischer Betreuer] Wittstock, Rüdiger [Akademischer Betreuer] Beckhaus y Michael [Akademischer Betreuer] [Wark. "Reactivity and compositional analysis of the solid electrolyte interphase and the cathode electrolyte interphase in different electrodes for Li-ion batteries / Eduardo, dos Santos Sardinha ; Gunther Wittstock, Rüdiger Beckhaus, Michael Wark". Oldenburg : BIS der Universität Oldenburg, 2019. http://nbn-resolving.de/urn:nbn:de:gbv:715-oops-41536.
Texto completoZielke, Thomas. "Strukturelle und funktionelle Analyse von chromosomalen Domänen mit Hilfe sequenz-spezifischer Rekombination in Drosophila". Doctoral thesis, Humboldt-Universität zu Berlin, Lebenswissenschaftliche Fakultät, 2015. http://dx.doi.org/10.18452/17232.
Texto completoPolytene chromosomes of Drosophila melanogaster provides an ideal model-system for the analysis of the mechanisms needed for chromosomal domain formation. Condensed as well as decondensed chromosomal domains can be formed by manipulating and reconstructing the polytene banding pattern. This possibility i ha-ve used for the establishment of an experimental system to study the structural requirements for open chromatin formation. Therefor i have generated a condensed chromatin domain at ectopic positions. This condensed „model“ domain provides a defined genetic context for the targeted insertion of sequences of interest, excluding any variable position effects. This allows comarative analysis of different sequences in order to identify the structural requirements for open chromatin formation. For this purpose the 61C7/8 interband sequence was targetly integrated into the condensed „model“ domain by site-specific recombination. Thereby i could show that the 61C7/8 interband sequence maintains the capacity to form open chromatin cognizable by the splitting of the condensed „model“ domain. Furthermore the newly formed open chromatin domain also keeps epigenetic characteristica like transcriptional activity or the recruitment of typical proteins. By deletion analysis, i have mapped the essential region needed for open chromatin formation to a ~490bp fragment located in the proximal part of the 61C7/8 interband sequence. This fragment overlaps binding sites for characteristic proteins known to be involved in chromosomal domain formation like the chromatin protein Chriz, the histone kinase Jil1 or the insulator protein CP190. Furthermore the fragment overlaps a promoter region that locates between the Rev1 and Med30 genes.
Nguyen, Thanh Hoi. "Vieillissement artificiel et vieillissement naturel en ambiance tropicale de composites modèles époxy/verre : approche nanoscopique de l'étude des interphases". Phd thesis, Toulon, 2013. http://tel.archives-ouvertes.fr/tel-00942583.
Texto completoStephens, Skylar Nicholas. "Analytical and Computational Micromechanics Analysis of the Effects of Interphase Regions, Orientation, and Clustering on the Effective Coefficient of Thermal Expansion of Carbon Nanotube-Polymer Nanocomposites". Thesis, Virginia Tech, 2013. http://hdl.handle.net/10919/23216.
Texto completoMaster of Science
Rousseaux, Sophie. "Ségrégations méiotiques des chromosomes remaniés dans les translocations humaines : analyse par hybridation in situ en fluorescence sur les noyaux spermatiques interphasiques". Université Joseph Fourier (Grenoble), 1995. http://www.theses.fr/1995GRE10065.
Texto completoBoufaida, Zakariya. "Analyse des propriétés mécaniques de composites taffetas verre/matrice acrylique en relation avec les propriétés d’adhésion des fibres sur la matrice". Thesis, Université de Lorraine, 2015. http://www.theses.fr/2015LORR0108/document.
Texto completoThis thesis is devoted to the characterization and the analysis of the mechanical properties of composite materials made of a plain weave glass fiber reinforcement and an acrylic resin (Elium®). Before the commercialization of the Elium resin in 2013, acrylics polymers were not used in the composite industry. In the experimental part of this thesis, we mainly focused on the sizing effect (surface treatment of the fibers to enhance the bonding between the matrix and the fibers) on the mechanical behavior of our composites. The characterizations were carried out through classical macroscopic mechanical tests (tensile, bending, shearing…) but using metrological tools for local analysis (full-field strain measurements, X ray micro-tomography, Scanning Electron Microscopy, Nano-indentation etc.). We were able to study strain and damage phenomena at local scales. Fatigue properties of the sizing were highlighted by heat build-up experiments. To analyze these measurements, an original data treatment has been developed which makes clear the benefit of an acrylic sizing in order to enhance the bonding between glass fibers and our acrylic matrix. In the theoretical part of this thesis, we studied the mechanical behaviour of our glass fiber plain weave/acrylic resin composite through a numerical simulation based on the CraFT spectral solver (Composite response and Fourier Transforms). Local stress and strain fields were obtained at the mesoscopic scale. The strain field analysis shows a periodic structure induced by the presence of the plain weave reinforcement. By a quantitative study, a good agreement between the numerical strain field obtained by CraFT and the 3D-DIC experimental strain measurements was found. The numerical stress field analysis reveals regions were a high local stress occurs. Comparing with X ray micro-tomography observationsof the internal structure of previously loaded composite sampleswe noticed that the damages occurring inside the mesostructure are totally correlated with the local stress concentration revealed by CraFT numerical simulations
Reindl, Christiane Simone. "Analyse von Chromosomenaberrationen disseminierter Prostatakarzinomzellen im Knochenmark auf Einzelzellebene mittels einer kombinierten Immunzytochemie und Dreifarben Interphase Fluoreszenz-in-situ-Hybridisierung". Diss., lmu, 2003. http://nbn-resolving.de/urn:nbn:de:bvb:19-10062.
Texto completoInoo, Akane. "Electrochemical Analysis on Reaction Sites of Graphite Electrodes with Surface Film in Lithium-ion Batteries". Kyoto University, 2020. http://hdl.handle.net/2433/253292.
Texto completoBhuiyan, Md Atiqur Rahman. "An integrated experimental and finite element study to understand the mechanical behavior of carbon reinforced polymer nanocomposites". Diss., Georgia Institute of Technology, 2013. http://hdl.handle.net/1853/52187.
Texto completoDreißig, Steven [Verfasser]. "Development of single-cell analysis methodologies to investigate segregation and dynamics of defined genomic regions during meiosis and interphase : [kumulative Dissertation] / Steven Dreißig". Halle, 2018. http://d-nb.info/1160514542/34.
Texto completoStarr, Michael J. "AFM-FTIR A New Technique for Materials Characterization /". Cincinnati, Ohio : University of Cincinnati, 2008. http://rave.ohiolink.edu/etdc/view.cgi?acc_num=ucin1227192819.
Texto completoAdvisor: James Boerio. Title from electronic thesis title page (viewed Feb.16, 2009). Includes abstract. Keywords: AFM; FTIR spectroscopy; atomic force microscopy; interphase; adhesive analysis; interferogram. Includes bibliographical references.
Pourreyron, Laurence. "Analyse d'un système de reconstitution corono-radiculaire collé : contribution à son évolution par l'étude des interfaces, interphases et des propriétés physico-chimiques". Paris 5, 1995. http://www.theses.fr/1995PA05M108.
Texto completoCipolla, Alex. "Etude et amélioration d'accumulateurs à anode de lithium métal en couplant modélisation et caractérisation". Thesis, Université Grenoble Alpes, 2022. https://tel.archives-ouvertes.fr/tel-03689299.
Texto completoLithium metal represents the optimal candidate for the negative electrode in lithium batteries, due to its high theoretical capacity (3860 mAh.g-1) and low potential (-3.04 V SHE). On the other hand, the major drawback of this technology is the formation of dendrites, which can cause thermal runaway and internal short-circuits, and are responsible for the limited lifetime of the cells. A dendrite-free lithium deposition is needed to improve this high energy density technology, thus, a deeper understanding of the phenomena and parameters that influence dendrite growth and formation is necessary.The goal of this work is the correlation between experiments and modelling, to understand the formation and the growth of dendrites. The output of the model allows one to theorize in which conditions dendrites growth is boosted or avoided, and how the properties of the cell components and the design of the electrode surface can affect it, to suggest solutions to reduce dendrites. On the other hand, the experimental work has the purpose to define a framework of techniques to find reliable parameters to be used in the model, and to validate the trends of the model.The proposed continuum model shows that the Solid Electrolyte Interphase (SEI) is fundamental to assess dendrites formation and growth, while the definition of a limiting current density is not a sufficient condition to avoid dendrites. Thanks to the introduction of the SEI concept and properties, the proposed model studies the influence of its mechanical and electrochemical properties on the dendritic growth. Starting from the initial surface geometry and the electrochemical and mechanical properties of the cell components, the model is able to predict the conditions that favours dendritic growth and to distinguish different surface morphologies. Tree-like, mossy-like and whisker dendrites are obtained, depending on the applied current density. Moreover, the addition of the mechanics of the SEI allows the model to distinguish between tip-induced growth and root-induced growth. From the model results, it can be concluded that a SEI with low resistivity, high diffusion coefficient and fast reaction rate can reduce dendrite growth, while the mechanical resistance of the SEI is a double-edge sword because it can limit the uncontrolled expansion of the lithium electrode but also boost the root-growth in case of fractures.Electrochemical impedance spectroscopy (EIS) and atomic force microscopy (AFM) techniques are used to find electrochemical and mechanical properties of the SEI formed in liquid electrolytes. By following electrochemical impedance response over time, it is possible to observe SEI evolution and determine mean values for its thickness, its diffusion coefficient and its conductivity. On the other hand, the AFM technique is used in the force spectroscopy mode, from which it is possible to determine local values of the SEI Young’s modulus. X-ray photoelectron spectroscopy (XPS) technique, which is able to identify the chemical components on the electrode surface, helps to validate the results of AFM. Finally, the trends predicted by the model are validated with a novel cell configuration suitable for an operando optical microscopy study of lithium metal stripping/plating.This work represents a comprehensive study on dendrites formation and growth in lithium metal batteries. While it considers only liquid electrolytes so far, as a perspective, it could easily be expanded to solid electrolytes and artificial coatings
Bondon, Arnaud. "Stabilité des écoulements stratifiés en coextrusion : Etude multi-échelle du rôle de l’architecture du copolymère aux interfaces". Thesis, Lyon, INSA, 2015. http://www.theses.fr/2015ISAL0100.
Texto completoSeveral polymers can be combined in one multilayer structure by reactive coextrusion. Tie-layers are often used to compatibilize the adjacent layers and may reduce or suppress the interfacial instabilities and the defects in the multilayer coextrusion flow. However, an additional defect defined as the “grainy” defect can be observed. In the best of our knowledge, no study in literature has been devoted to understand its origin. The phenomena are quite complex due to the coupling of the effects of flow and the physico-chemical mechanisms at the interface. The aim of this work is to understand the relations between the instabilities and the defects encountered in multilayer coextruded films and the role of the copolymer formed in-situ between tie and barrier layers. Polyamide 6 (PA6) and ethylene-vinyl alcohol copolymer (EVOH) were used as the barrier layers sandwiched in a polypropylene (PP) with or without a polypropylene grafted maleic anhydride (PP-g-MA) as a tie-layer. The effect of the process parameters and the structure of the polymers on the generation of the “grainy” defect was assessed in correlation with the rheological and the physicochemical properties of the layers. These experiments have shown that this defect appeared mainly in the compatibilized EVOH system and could be distinguished from the usual coextrusion instabilities. The interfacial properties between tie and barrier layers were investigated. The characterization of the interfacial morphology by TEM and AFM highlighted an irregular and rough interface between PP-g-MA and EVOH while a flat interface was observed with PA6 and PP-g-MA. Step shear and startup elongation rheology was shown to be sensitive to the copolymer at the polymer/polymer interface. The study of the interfacial properties highlighted that the copolymer architecture significantly impacts the interfacial roughness and the rheology of the multilayer stuctures. Hence, relations between the relaxation process, the interfacial morphology and the copolymer architecture were established in correlation with the generation of the macroscopic grainy defect in coextrusion
Liu, Yu. "Etude d'interface entre matrice polymère et renforts à base de carbone, à l'aide d'observations multiéchelles et multimodales en microscopie électronique". Thesis, Université Paris-Saclay (ComUE), 2017. http://www.theses.fr/2017SACLC059/document.
Texto completoThis thesis aims to investigate the multiscale (nano-, micro-, and macro-scopic) behavior of the composites based on a fine investigation using the most modern techniques, to understand the interfaces and to quantify them. Two series of reinforcements on a micrometer scale, carbon fibers (CFs) and graphene-based materials, were studied here. To improve the interactions between these nanofillers and the surrounding polymer matrix, two major routes were used in this thesis: the oxidation of the fillers and the grafting of carbon nanotubes on their surface.The study itself was conducted on a microscopic scale on the interfacial strength between CFs and the epoxy matrix, with tensile tests carried out in-situ in the chamber of a double-column FIB-SEM microscope (scanning electron microscope coupled to a focused ion beam). The ion beam was used to mill a thin bond-shaped tensile specimen of composite containing both an epoxy and a CF part. Thetensile stress field was applied using the nanomanipulator and the test was observed both via the ionic and the electronic columns (with two different angles of view) to estimate the strain field, hence the interfacial strength when the failure is observed. A similar experiment was led on a composite with GNPs.Finally, the transmission electron microscopy (TEM) study of the interface region between the epoxy and the graphene-based nanofillers revealed the existence of an interphase and allowed to measure its thickness and give an indication of its nature. For this purpose, an EELS (electron energy-loss spectroscopy) analysis was carried out, making it possible to measure the density of the sample very locally (probe size of the order of a tenth of a nanometer) across or parallelly to an interface. A scenario on the chemical bonding modes between the two media as a function of the surface treatment used makes it possible to explain the nature of the observed interphases
Salviato, Marco. "Experimental analysis and multi-scale analytical and numerical modelling of nanomodified composite mechanical properties". Doctoral thesis, Università degli studi di Padova, 2013. http://hdl.handle.net/11577/3422627.
Texto completoI nanocompositi, ottenuti mediante modificazione di resine polimeriche con cariche di dimensioni nanometriche, rappresentano una classe di materiali che sta riscuotendo un notevole interesse da parte della comunità scientifica e del mondo industriale. Combinando infatti, in maniera opportuna, rinforzi su scala nanometrica con polimeri tradizionali è possibile ottenere dei nuovi materiali dalle eccezionali proprietà fisiche e di resistenza. I risultati finora disponibili in letteratura indicano la possibilità di ottenere incrementi prestazionali molto elevati già con frazioni di nanocarica limitate, dell’ordine di qualche percento. Al fine di poter sfruttare l’enorme potenziale di questo tipo di materiali è necessario che l’attività sperimentale sia accompagnata da un’adeguata attività di modellazione, così da mettere a punto dei modelli comportamentali capaci di prevedere le proprietà meccaniche del nanocomposito, includendo la struttura gerarchica e la peculiarità dei meccanismi di rinforzo. In questo lavoro viene proposta una panoramica e un’analisi critica delle principali metodologie di modellazione finora disponibili in letteratura, con riferimento alle proprietà meccaniche e in particolare alla tenacità a frattura. Per ciascun modello analizzato vengono descritti gli aspetti maggiormente significativi, le ipotesi di base e le conseguenze che tali ipotesi hanno sul risultato finale. Viene delineata l'importanza di un approccio multi-scala, gerarchico o concorrente, alla modellazione e viene introdotta una classificazione dei principali approcci basata sulla scala di lunghezza investigata per affrontare il problema (micro-, nano- e molecolare). Successivamente, viene presentato uno studio approfondito degli effetti interfacciali sul meccanismo di debonding di nanoparticelle. L'analisi è stata condotta nell'ambito della teoria della Finite Fracture Mechanics e della Surface Elasticity. Vengono tenuti in considerazione, contemporaneamente, gli effetti di un'interfase che circonda la nanoparticella e di tensioni superficiali agenti all'interfaccia con la matrice. L'analisi del meccanismo di debonding rappresenta la base di una procedura multiscala per il calcolo della tenacità a frattura di nanocompositi particellari. L'approccio proposto in questo lavoro unisce i modelli di danneggiamento sviluppati dall'autore. Vengono discussi il funzionamento del modello e l'influenza dei principali parametri e le previsioni sono confrontate con risultati sperimentali provenienti da letteratura. Nella seconda parte del lavoro vengono presentati e discussi i risultati delle campagne sperimentali condotte dall'autore con particolare enfasi agli effetti della nanomodificazione sul comportamento a frattura, quasi-statico e ciclico, sia di polimeri nanomodificati che di laminati nanomodificati con nanoclay. Nel caso di polimeri nanomodificati, viene mostrato come l'aggiunta di nanorinforzi comporti un miglioramento significativo del comportamento a frattura del sistema sia in regime quasi-statico che ciclico e per diversi modi di sollecitazione. Nel caso di laminati nanomodificati, a causa della morfologia del nanofiller, il comportamento a frattura è risultato ancora confrontabile a quello dei laminati base.
Lu, Xiaoxin. "Modélisation électro-mécanique multi-échelle des nanocomposites graphène/polymère". Thesis, Université Paris-Saclay (ComUE), 2017. http://www.theses.fr/2017SACLC058/document.
Texto completoThis work contributes to developing numerical methodologies for predicting the electrical and mechanical properties of graphene/polymer nanocomposites, which can provide a better view for the design of new materials.First, a nonlinear electrical conduction model taking into account the tunneling effect is introduced to determine the effective conductivity of the graphene/polymer nanocomposites through a numerical homogenization procedure. The influences of barrier height and microstructural parameters on the conductivity were demonstrated.Then, to characterize the properties of interphases and interfaces, we employed the Murdoch-Hardy procedure combined with the molecular dynamics method to study the mechanical properties of the graphene/polymer nanocomposites. The stiffness tensor components of the interphase, interface andnbulk polymer region are identified. Based on these fields, a continuous elastic model with imperfect interface has been identified and compared with the results of molecular dynamics simulations.Finally, the atomistic model was used to identify a nonlinear cohesive zone model to simulate the decohesion at the interface of polymer and graphene. A numerical homogenization procedure by finite element method was introduced to estimate the effective mechanical properties in the framework of the finite strains. The proposed mechanical modeling is finally extended to the finite strain problem to predict the evolution of percolation threshold under tension within the proposed electrical model
Villegas, Randolfo. "Genèse de la ferrite aciculaire dans les aciers à moyen carbone microalliés au vanadium. Morphologie fractale en relation avec les propriétés mécaniques". Thesis, Vandoeuvre-les-Nancy, INPL, 2007. http://www.theses.fr/2007INPL086N/document.
Texto completoMedium carbon vanadium microalloyed steels have been developed to obtain new microstructures, mainly formed of acicular ferrite (AF). Controlling the chemical composition and (0.1-0.3 % V) and the cooling rates (2.0 °Cs-1) lead to AF fractions up to 80 %. An empirical parameter, the ferritisant power, P, has been introduced to evaluate the combined effect of chemical composition and cooling conditions. Scanning (SEM) and transmission (TEM) electron microscopy investigations indicate that AF develops from proeutectoid ferrite enveloping MnS inclusions. An interphase precipitation of vanadium carbo-nitrides, V(C,N) has been identified. It is suggested that this precipitation is at the origin of carbon depletion in the austenitic matrix surrounding the AF plates. The formation of the AF is then enhanced by an autocatalytic effect. The fractal nature of AF has been determined by SEM and TEM characterisations. Fractal dimensions, D, and cut off lengths have been derived by the counting box method applied to SEM images. Mechanical tests conducted in isothermal and quasistatic conditions reveal that mechanical properties of AF are of the same grade of that of bainitic microstructures. Experimental strain-stress curves are described by the Hollomon law. The work hardening of the studied microstructures increases with the AF fraction. The mechanical properties have been linked to the fractal dimension by the following exponential relation : [delta]M = c exp [[alpha] (D -2)], where M represents the mechanical property (Re, Rm, etc.) and c and [alpha] are constants parameters
Abbasi, Baharanchi Ahmadreza. "Development of a Two-Fluid Drag Law for Clustered Particles Using Direct Numerical Simulation and Validation through Experiments". FIU Digital Commons, 2015. http://digitalcommons.fiu.edu/etd/2489.
Texto completoHUANG, SIN-YI y 黃馨毅. "Influence and numerical analysis of solid electrolyte interphase of the lithium ion battery". Thesis, 2018. http://ndltd.ncl.edu.tw/handle/tvfhkv.
Texto completo國立臺南大學
綠色能源科技學系碩士班
106
In this study is employed a pseudo two-dimensional (P2D) lithium-ion battery electro-chemical model to discuss the temperature variation of lithium-ion battery and solid electrolyte interphase (SEI) film had an impact on battery. In numerical analysis, this mode is composed of electrochemical model, heat transfer model and capacity fade mode. The results have good agreement with experimental battery (LiC6-LiMn5Ni3Co2) and the error is 2.24%. In the literature review, the literature refers three kind of models for using its formulas as the basis for the study. The study focus on the major factors of temperature rising and effect of SEI layer after charging cycles in different C-rate. Battery’s temperature rising is caused from the heat source. The heat source is assembled in reaction heat, reversible heat and ohmic heat that centralized generated between the electrode and the separator. After adding the capacity fade model, we discuss the battery effected the SEI film when adjust the C-rate and cycle number. When charging cycles get up to 500, the capacity drops to 82.9% of the initial value. As the C-rate rises, the rate of SEI film formation also increases and affects the battery temperature.
Maierhofer, Christine [Verfasser]. "Etablierung der Vielfarben-Interphase FISH Dekonvolutions-Mikroskopie zur Einzelzell-Analyse / vorgelegt von Christine Maierhofer". 2003. http://d-nb.info/969989997/34.
Texto completoChang, Shih-Chang y 張世璋. "The Study of The Reaction Kinetics of Benzimidazole-Based Lithium Salt and Characteristic Analysis of Solid Electrolyte Interphase after Electrochemical Reduction Reaction". Thesis, 2017. http://ndltd.ncl.edu.tw/handle/z5zs74.
Texto completo國立臺灣科技大學
應用科技研究所
105
In this study, benzimidazole as the main body of the structure to research different functional groups as the electrolyte solution of lithium salt. The results were tested by electrochemical quartz crystal microbalance to investigate benzimidazole lithium salt additives in different electrodes electrochemical reaction kinetics and the formation mechanism of Solid Electrolyte Interface (SEI). The chemical composition of solid electrolyte interface film was identified by nuclear magnetic resonance spectroscopy. The results showed the addition of benzimidazole lithium salt did affect the EC reduction potential, especially in LiBZ and LiMB, not only in the results of the gold electrode but also the results of the graphite electrode showed the effects of the early reduction reaction. The reaction of kinetics changed significantly as well. In addition, LiTFB contains (-CF3) substituents improved the electron density of LiTFB. In the previous research and in-situ EQCM proved that the LiTFB and carbonates would produce novel forms of solid electrolytes.
Reindl, Christiane Simone [Verfasser]. "Analyse von Chromosomenaberrationen disseminierter Prostatakarzinomzellen im Knochenmark auf Einzelzellebene mittels einer kombinierten Immunzytochemie und Dreifarben-Interphase-Fluoreszenz-in-situ-Hybridisierung / vorgelegt von Christiane Simone Reindl". 2003. http://d-nb.info/96785282X/34.
Texto completoKnoch, Tobias A. [Verfasser]. "Approaching the three-dimensional organization of the human genome : structural, scaling and dynamic properties in the simulation of interphase chromosomes and cell nuclei ; long range correlations in complete genomes ; in vivo analysis of the chromatin distribution ; construct conversions in simultaneous co-transfections / presented by Tobias A. Knoch". 2003. http://d-nb.info/966208587/34.
Texto completoΔρακόπουλος, Ευάγγελος. "Κατασκευή-μοντελοποίηση και μελέτη της φυσικής και μηχανικής συμπεριφοράς σύνθετων υλικών πολυμερικής μήτρας ενισχυμένης με νανοσωλήνες άνθρακα". Thesis, 2010. http://nemertes.lis.upatras.gr/jspui/handle/10889/3906.
Texto completoNanocomposites constitute a very special category of composite materials. Only a small amount of nano-inclusions is enough to achieve unique mechanical, electrical and other properties. Carbon nanotubes have gain the scientists’ interest the last ten years due their becoming a material with many prospects. After an extended research by Iijima, S. in 1991, carbon nanotubes became a new attractive material to Nanotechnology. Thorough investigations in polymer matrix composites reinforced with carbon nanotubes are being developed in an effort to explain their properties. The aim of the present master thesis is multiple. The first step was the experimental procedure which started with the static mechanical characterization of epoxy polymer matrices reinforced with Multi Walled Carbon Nanotubes in order to define the factors that, mainly, come up during the mixing process and contribute to the final mechanical properties, namely the bending modulus and the strength. High speed shearing and ultrasonication were the two main manufacturing techniques that were applied in order to disperse the nanotubes in different volume fractions. Neat epoxy and MWCNT’s-reinforced epoxy specimens were also tested with Dynamic Thermo Mechanical Analysis bending experiments, by which the glass transition temperature, Tg, and the damping response were defined. Furthermore, three point bending tests in different strain rates and creep-recovery tests were executed for the definition of the short-term and long-term viscoelastic response, respectively. Finally, the damage that occurs after thermal shock cycling and water absorption was examined thoroughly. More specifically, the elastic properties degradation, due to damage, of the neat epoxy and of the nanocomposites was compared. Next, using the hybrid interphase concept and the viscoelastic intrphase, a theoretical investigation of the fiber-matrix interphase region was executed in an effort to compute both analytically and numerically its effect on the interfacial stress and strain fields developed in the area close to CNT’s. Analytical models that give the distribution of the normal and shear stresses were applied and the results were compared with the numerical analysis. The Finite Element Method was used for the numerical analysis. Many simplifying assumptions were necessary for both analytical and numerical technique. Experimental findings combined with analytical and numerical results gave a better understanding on the structural and mechanical performance of epoxy resin-carbon nanotubes composites. The static mechanical characterization that is being presented shows that we can achieve better mechanical properties by using a quit simple and low cost mixing process, but it needs much better techniques to achieve high performance materials. Glass transition temperature, Tg, of the nanocomposite is clearly higher from that of the neat epoxy. On the other hand, the damping of the nanocomposite is much lower, especially in higher temperatures. Finally, the nanocomposites seem to have much better response after cyclic thermal shock in contrast with the effect of water absorption, that seem to degrade the properties. The theoretical investigation showed that the third phase formatted around the inclusion is responsible for the stress and strain field developed in the area close to the nanotube. The interphase is not simply a geometrical concept but it mainly a property dependent concept, the thickness of which vary in compliance with the adhesion coefficient and time. Nanocomposites are materials that need further investigation in order to achieve things that the human brain could never imagine a few decades before.