Global ETD Search

1	Etude du comportement en fatigue d’un composite à matrice polyamide renforcé d'un tissu de fibres de verre pour application automobile / Fatigue Behaviour of a Woven Glass-Fibre-Reinforced Polyamide COmposite for Automotive Application Malpot, Amélie 02 February 2017 (has links) Ces travaux de thèse portent sur un composite à matrice polyamide 6,6 (PA66) renforcé d’un tissu de fibres de verre (Sergé 2/2). Dans le but d’une intégration dans des pièces automobiles, on s’intéresse au comportement de ce matériau sous sollicitation cyclique. L’objectif est de mettre au point un critère de fatigue permettant de prédire la durée de vie du composite étudié. Le PA66 étant sensible à l’humidité, il est nécessaire de prendre en compte ce paramètre dans notre étude. Pour cela, le matériau est conditionné selon trois états : un état sec (RH0), un état ambiant (RH50) et un état saturé en eau(RH100). Trois séquences d’empilement sont également considérées afin de tenir compte de l’orientation des fibres dans le matériau : [(0/903], [(90/0)3] et [(±45)3]. Dans un premier temps, l’influence du conditionnement sur les propriétés microstructurales et mécaniques en traction monotone est étudiée.Le rôle plastifiant de l’eau sur le PA66 a été mis en évidence. L’instrumentation des essais de traction monotone avec un système d’émission acoustique associée à l’observation post-mortem par MEB des éprouvettes permet de proposer un scénario d’endommagement en traction quasi-statique pour chaque configuration étudiée. Dans un deuxième temps, une campagne d’essais en fatigue traction-traction est menée sur les neuf configurations de l’étude. Ces essais ont permis la mise en place et l’évaluation de deux critères de fatigue phénoménologiques : les diagrammes de durées de vie constantes et le critère de fatigue à deux paramètres basé sur les courbes S-N. Ce dernier a été enrichi afin de pouvoir prédire la durée de vie du matériau pour différents conditionnements. De manière générale, le modèle montre une bonne capacité à prédire la durée de vie du matériau pour des conditions d’essais variées. Afin de cerner la capacité du modèle à être utilisé en bureau d’études, celui-ci a été appliqué dans le cas d’essais de fatigue menés sur une mini-structure sollicitée en flexion 3 points. / This study is focused on a woven glass-fibre-reinforced composite (2/2 twill) with a polyamide 6,6 matrix. From the perspective of its future integration in automotive parts, the fatigue behavior of this material is investigated. The aim is to develop a fatigue model able to predict the fatigue life of the composite studied. The PA66 behaviour is highly influenced by the moisture content, thus, it is necessary to take this parameter into account. Hence, three conditionings are studied: RH0, RH50 andRH100 which correspond respectively to the dry-as-moulded, the ambient and the water-saturated state.Three different stacking sequences are used in order to study the influence of fibre orientation: [(0/90)3],[(90/0)3] and [(±45)3]. First, the influence of moisture on microstructural and mechanical properties formonotonic tensile tests is studied. The plasticizing effect of water on PA66 has been highlighted. A damage scenario has been determined for every configuration studied by using acoustic emission technique during monotonic tensile tests and post-mortem SEM observations. Then, tension-tension fatigue tests are performed for all sample configurations. The results have been used to set up two phenomenological fatigue life models: the constant life diagrams and the two-parameter model based onS-N curves. The latter has been enhanced by including the relative humidity in order to be able to predict the fatigue life of the material for any conditioning. In general, this model estimates quite well the fatigue life of the material for different testing conditions. Finally, the two-parameter model has been used for fatigue life prediction of both open-hole samples and a mini-structure in order to evaluate its capability to be used in an industrial context. Composites tissés Modèle phénoménologique Woven composite materials Phenomenological model
2	A Detailed Multi-Zone Thermodynamic Simulation For Direct-Injection Diesel Engine Combustion Xue, Xingyu 1985- 14 March 2013 (has links) A detailed multi-zone thermodynamic simulation has been developed for the direct-injection (DI) diesel engine combustion process. For the purpose of predicting heterogeneous type combustion systems, the model explores the formation of pre-ignition radicals, start of combustion, and eventual heat release. These mechanisms are described based on the current understanding and knowledge of the diesel engine combustion acquired through advanced laser-based diagnostics. Six zones are developed to take into account the surrounding bulk gas, liquid- and vapor-phase fuel, pre-ignition mixing, fuel-rich combustion products as well as the diffusion flame combustion products. A three-step phenomenological soot model and a nitric oxide emission model are applied based on where and when each of these reactions mainly occurs within the diesel fuel jet evolution process. The simulation is completed for a 4.5 liter, inline four-cylinder diesel engine for a range of operating conditions. Specifically, the engine possesses a compression ratio of 16.6, and has a bore and stroke of 106 and 127 mm. The results suggest that the simulation is able to accurately reproduce the fuel jet evolution and heat release process for conventional diesel engine combustion conditions. The soot and nitric oxide models are able to qualitatively predict the effects of various engine parameters on the engine-out emissions. In particular, the detailed thermodynamics and characteristics with respect to the combustion and emission formation processes are investigated for different engine speed/loads, injection pressures and timings, and EGR levels. The local thermodynamic properties and energy, mass distributions obtained from the simulation offer some fundamental insights into heterogeneous type combustion systems. The current work provides opportunities to better study and understand the diesel engine combustion and emission formation mechanisms for conventional diesel engine combustion modes. The flexible, low computational cost features of this simulation result in a convenient tool for conducting parametric studies, and benefits for engine control and diagnostics. emission model Combustion Process Multi-Zone Phenomenological Model Thermodynamic Simulation Internal Combustion Engine
3	Intentionality as Methodology Hochstein, Eric 05 December 2011 (has links) In this dissertation, I examine the role that intentional descriptions play in our scientific study of the mind. Behavioural scientists often use intentional language in their characterization of cognitive systems, making reference to “beliefs”, “representations”, or “states of information”. What is the scientific value gained from employing such intentional terminology? I begin the dissertation by contrasting intentional descriptions with mechanistic descriptions, as these are the descriptions most commonly used to provide explanations in the behavioural sciences. I then examine the way that intentional descriptions are employed in various scientific contexts. I conclude that while mechanistic descriptions characterize the underlying structure of systems, intentional descriptions allow us to generate predictions of systems while remaining agnostic as to their mechanistic underpinnings. Having established this, I then argue that intentional descriptions share much in common with statistical models in the way they characterize systems. Given these similarities, I theorize that intentional descriptions are employed within scientific practice as a particular type of phenomenological model. Phenomenological models are used to study, characterize, and predict the phenomena produced by mechanistic systems without describing their underlying structure. I demonstrate why such models are integral to our scientific discovery, and understanding, of the mechanisms that make up the brain. With my account on the table, I then look back at previous accounts of intentional language that philosophers have offered in the past. I highlight insights that each brought to our understanding of intentional language, and point out where each ultimately goes astray. I conclude the dissertation by examining the ontological implications of my theory. I demonstrate that my account is compatible with versions of both realism, and anti-realism, regarding the existence of intentional states. Intentional language phenomenological model statistical model mechanistic model intentionality explanation prediction Philosophy
4	Intentionality as Methodology Hochstein, Eric 05 December 2011 (has links) In this dissertation, I examine the role that intentional descriptions play in our scientific study of the mind. Behavioural scientists often use intentional language in their characterization of cognitive systems, making reference to “beliefs”, “representations”, or “states of information”. What is the scientific value gained from employing such intentional terminology? I begin the dissertation by contrasting intentional descriptions with mechanistic descriptions, as these are the descriptions most commonly used to provide explanations in the behavioural sciences. I then examine the way that intentional descriptions are employed in various scientific contexts. I conclude that while mechanistic descriptions characterize the underlying structure of systems, intentional descriptions allow us to generate predictions of systems while remaining agnostic as to their mechanistic underpinnings. Having established this, I then argue that intentional descriptions share much in common with statistical models in the way they characterize systems. Given these similarities, I theorize that intentional descriptions are employed within scientific practice as a particular type of phenomenological model. Phenomenological models are used to study, characterize, and predict the phenomena produced by mechanistic systems without describing their underlying structure. I demonstrate why such models are integral to our scientific discovery, and understanding, of the mechanisms that make up the brain. With my account on the table, I then look back at previous accounts of intentional language that philosophers have offered in the past. I highlight insights that each brought to our understanding of intentional language, and point out where each ultimately goes astray. I conclude the dissertation by examining the ontological implications of my theory. I demonstrate that my account is compatible with versions of both realism, and anti-realism, regarding the existence of intentional states. Intentional language phenomenological model statistical model mechanistic model intentionality explanation prediction Philosophy
5	Development of a Phenomenological Model For Beam–to–Column Connections in Moment Resisting Frames Subjected to Seismic Loads Penubothu Naga Nataraja, Satyanarayana Kumar 02 October 2006 (has links) No description available. Engineering, Civil Connections Moment Resisting Frames Phenomenological Model, Cyclic Loads Seismic loads
6	Dynamic Characterization of a Pneumatic Muscle Actuator and Its Application to a Resistive Training Device Serres, Jennifer L. 21 November 2008 (has links) No description available. Biomedical Research Pneumatic Muscle Actuator Phenomenological Model biomimetic parameter characterization zero-G exercise resistive training device
7	Analyse du canal Λb → Λ + J/Ψ et mesure de la polarisation du baryon Λ produit dans les collisions p-p à 7 TeV avec le détecteur LHCb / Analysis of the channel Λb → Ψ Λ + J/Ψ and measurement of the polarization of the baryon Λ produced in collisions p-p at 7 TeV with the LHCb detector Jahjah-Hussein, Marwa 03 February 2011 (has links) Les thèmes abordés et développés dans ce manuscrit ont pour objectif de proposer une nouvelle voie pour tester, d'une manière directe, la symétrie de renversement du temps (T) : voie offerte par le LHC grâce à la production copieuse de baryons beaux, spécialement le Λb dont les canaux de désintégration en ΛV(1-) révèleraient l'existence de nouvelles observables impaires par T. L'accent est mis sur l'importance de la polarisation initiale du Λb produit dans les collisions p-p et, surtout, sur celles des résonances intermédiaires issues du Λb. Nous présentons en premier lieu le cadre théorique du travail effectué et en second lieu les différentes voies concernant la recherche directe de la violation de T. Un modèle phénoménologique étudiant la désintégration Λb → Λ J/Ψ a été développé à partir duquel les distributions angulaires ont été calculées. Une étude approfondie de la reconstruction et de la sélection du canal Λb → Λ J/Ψ est exposée ainsi que celle du canal Bd0→ J/Ψ Ks0 ; canal utilisé pour valider la méthode d'extraction du temps de vie du Λb. Sur un autre plan et grâce au démarrage du LHC, une analyse préliminaire des premières données enregistrées par le LHCb a été effectuée ainsi qu'une première mesure prometteuse de la polarisation de l'hypéron Λ. / The topics discussed and developed in this dissertation aim to propose a new way to test, in a direct manner, the symmetry of time reversal (T): an opportunity is offered by the LHC through the copious production of beauty baryons, especially the Λb whose decay channels in ΛV (1-) would reveal the existence of new odd observables under T. The Emphasis is put on the importance of the Λb initial polarization produced in p-p collisions, and especially those of intermediate resonances coming from Λb. We first present the theoretical framework of this work and secondly the different procedures concerning the direct search of T violation. A phenomenological model considering the decay Λb → Λ J/Ψ has been developed, from which angular distributions are computed. A detailed study of the reconstruction and selection of the channel Λb → Λ J/Ψ is exposed as well as that of the channel Bd0 → J/Ψ Ks0 ; channel used to validate the extraction of the Λb lifetime. On another side and due to the start of the LHC, a preliminary analysis of data recorded by the LHCb has been made. A promising first measure of the hyperon Λ polarization was also performed. LHCb Violation de la symétrie T Modèle Phénoménologique Temps de vie du Λb Polarisation LHCb T violation Phenomenological model Λb lifetime Polarisation
8	Cyclic multiaxial behavior modeling of Shape Memory Alloys / Modélisation du comportement multiaxial cyclique des alliages à mémoire de forme Chatziathanasiou, Dimitrios 26 April 2016 (has links) De nouvelles approches phénoménologiques sur la modélisation du comportement des AMFs sont nécessaires pour tenir en compte leur réponse complexe sous chargement multiaxial. L’effet de l’anisotropie induit une dépendance de leur comportement inélastique de la direction du chargement pour des cas superélastiques. La réorientation martensitique affecte drastiquement la réponse du matériau sous chargement non-proportionnel. La charge répétitive modifie aussi certaines propriétés du matériau. L’objectif de cette étude est de proposer un nouveau modèle constitutif thermodynamique robuste pour les AMFs, focalisé surtout sur des compositions NiTi équiatomiques pour capter la transformation martensitique anisotrope et la réorientation des variantes martensitiques. Une nouvelle approche mathématique est introduite pour permettre la prise en compte de l’anisotropie de contraintes et l’évolution des déformations inélastiques lors de la transformation directe, causée par les conditions de mise en forme de structures en AMFs. Cette méthode est évaluée en employant des courbes contraintes-déformations résultant de chargements proportionnels simulés par un modèle micromécanique. Un modèle phénoménologique considérant surtout la réorientation martensitique et mettant en évidence le fort couplage thermomécanique est développé. Il est implémenté dans une plate-forme numérique en C++, SMART+, et évalué en exécutant des simulations des expériences non-proportionnelles existantes. Des structures complexes sont également simulées en employant la Méthode des Élements Finis. La dernière partie de ce travail concerne l’étude expérimentale des effets du chargement cyclique sur l’évolution des déformations résiduelles et le seuil de transformation des alliages NiTi sous sollicitation uniaxiale et biaxiale. / New phenomenological approaches in modeling the behavior of SMAs are needed to account for their complex response under multiaxial loading. The effect of anisotropy induces a dependence of their inelastic behavior to the direction of the loading for superelastic cases. Martensitic reorientation affects drastically material response under non-proportional loading. Repeated loading also alters certain material properties. The goal of this study is to propose a new robust thermodynamic constitutive model for SMAs with focus on equiatomic NiTi compositions to capture anisotropic martensitic transformation and reorientation of martensitic variants, always taking in mind the strong thermomechanical coupling. A new mathematical approach is introduced to account for the anisotropy of stresses and the evolution of inelastic strains during forward transformation caused by the forming conditions of SMA structures. This method is evaluated by utilizing stress-strain curves resulting from proportional loading simulated with a micromechanical model. A phenomenological thermodynamic model considering especially martensitic reorientation and exhibiting the strong thermomechanical coupling is developed. It is implemented on a numerical platform in C++, SMART, and evaluated by simulating existing non-proportional experiments. Complex structures are also simulated using Finite Element Analysis. The last part of this work concerns the experimental study of the effects of cyclic loading to the evolution of residual strain and transformation threshold of NiTi under uniaxial and biaxial testing. Modèle phénoménologique Réorientation martensitique Couplage thermomécanique Anisotropie Conditions de chargement complexes Comportement cyclique Phenomenological model Martensitic reorientation Thermomechanical coupling Anisotropy Complex loading conditions Cyclic behavior
9	A Framework for the Development and Validation of Phenomenologically Derived Cochlear Implant Stimulation Strategies Andres Felipe Llico Gallardo (11189976) 27 July 2021 (has links) <div>Cochlear implants (CI) are sensory neuroprostheses capable of partially restoring hearing loss by electrically stimulating the auditory nerve to mimic normal hearing conditions. Despite their success and ongoing advances in both hardware and software, CI patients can still struggle to understand speech, most notably in complex auditory settings, also referred to as the cocktail party problem. Efforts to develop new CI algorithms to overcome this challenge rely on CI simulators and vocoders to test with normal hearing (NH) patients. However, recent studies have suggested that these tools fail to reproduce the stimuli perceived by CI patients. It is therefore critical to develop tools capable of producing better representations of the stimuli as perceived by CI patients. Thus, this work proposes a framework that incorporates physiological models of the peripheral auditory nerve. Using these models, the framework generates stimulations that elicit a neural response at the auditory nerve closer to that observed in NH conditions. Stimulations generated by the framework were evaluated by performing a vowel identification task. However, the task was performed by a classifier trained using deep learning techniques instead of a CI patient. These results give insight into how the framework could be applied for the development and validation of CI stimulation strategies.</div> Neuroscience Cochlear Implants auditory nerve modeling convolutional neural network stimulation strategies phenomenological model Hearing Loss Electrical Stimulation word recognition task
10	Influence on tip leakage flow in a compressor cascade with plasma actuation Wang, Haotian January 2019 (has links) As one of the key components of aero engines, compressor is required to endure higher pressure, possess higher efficiency and wider operating range. Intensive studies have been made on tip leakage flow and researchers find that by reasonably organizing tip leakage flow, aero engines are more likely to achieve better performance and reliability. Conventional flow controlling methods like casing treatment and micro jet could substantially modify tip leakage flow, unfortunately with a price of additional loss, not to mention the difficulty in manufacturing such structure. Whereas plasma actuation flow control method uses plasma actuators, such equipment is easy to build, responses fast and has a wide excitation bandwidth. This method has become a new trend in internal flow active control field. In this research, a phenomenological model is adopted to simulate DBD plasma actuation in the flow field inside a compressor cascade. The aim is to find out how plasma actuation will influence tip leakage flow. Meanwhile possible means to improve plasma actuation performance are discussed. First of all, numerical simulation of flow inside a compressor cascade without plasma actuation is conducted to validate accuracy of the numerical methodology adopted and then determine one numerical approach that satisfies specific needs sufficiently. Meanwhile, influence of casing movement on tip leakage flow as well as possible mechanism of tip leakage vortex core generation is investigated in detail. The results indicate: 1. Generating position of tip leakage vortex moves towards leading edge with increasing moving speed of shroud. 2. As shroud moving speed increases, trajectory of tip leakage vortex moves away from suction side of blade and closely towards shroud. 3. Casing movement tends to transform tip leakage vortex from circular to oval shape due to circumferential shearing. 4. Casing movement has little influence on total pressure field concerning absolute pressure value. While total pressure loss does reduce slightly with increasing moving speed of shroud. 5.Vorticity transport from tip clearance into passage may be contributing significantly to generation of tip leakage vortex inner core. Secondly, a simplified model of DBD plasma actuation based on literature [1] is derived and applied through UDF function of commercial software Fluent into the flow field. Different actuation positions, voltages and frequencies are applied in simulation and compared. After that casing movement is included. Main conclusions are as follow: 6. Plasma actuation shows significant suppressing effect on tip leakage vortex on both size, trajectory and strength. 7. The suppressing effect on tip leakage vortex grows stronger as actuator moves towards leading edge. 8. Increasing actuation voltage results in stronger suppressing effect on tip leakage vortex. 9. Plasma actuation can effectively improve total pressure loss situation near shroud region with increasing actuation power. 10. Increasing actuation frequency results in stronger suppressing effect on tip leakage vortex as well. Additionally, frequency performs slightly better than voltage. 11. Casing movement tends to weaken suppressing effect of tip leakage vortex by plasma actuation. More actuation power is needed to achieve sufficient suppressing effect in real compressors. / Som en av de viktigaste komponenterna i flygmotorer krävs det att kompressorn utsätts för högre tryck, har högre effektivitet och större driftsintervall. Intensiva studier har gjorts om skovlarnas toppspel läckageflöde och man anser att det är mer sannolikt att flygmotorer uppnår bättre prestanda och tillförlitlighet genom att på ett rimligt sätt reglera läckageflödet i toppspelet. Konventionella metoder för reglering av flödet, som behandling av “casing” och mikrojet, skulle kunna ändra läckageflödet avsevärt, men medför tyvärr ytterligare förlust, för att inte tala om svårigheten att tillverka en sådan struktur. Samtidig flödeskontroll med hjälp av plasma aktuatorer som är relativt lätta att bygga, reagerar snabbt och har en bred excitationsbandvid. Denna metod har blivit en ny trend inom det interna flödesaktiva kontrollområdet. I denna forskning antas en modell för att simulera plasmaaktivering av DBD i flödesfältet i en kompressorskaskad. Man försöker ta reda på hur plasmaaktivering påverkar läckageflödet. Möjliga sätt att förbättra effekten av plasmaaktivering diskuteras. För det första genomförs numerisk simulering av flödet i en kompressorskaskad utan plasmaaktivering för att validera noggrannheten i den numeriska metoden. Därefter undersöks i detalj vilken inverkan den relativa rörelsen av ”casing” har på läckageflödet genom toppspelet och mekanismen för toppspelsvirvel analyseras. Resultaten visar: 1. Startposition för läckagevirveln rör sig mot skovelns framkant när man introducerar och ökar den relativa hastigheten för ”casing”. 2. I takt med att den relativa hastigheten ökar, kretsbanan för läckage virveln rör sig bort från skovelns sugsida och närmare mot ”casing”. 3. Den relativa rörelsen tenderar att omvandla virveln från cirkulär till oval form på grund av skjuvkrafter. 4. Den relativa rörelsen av ”casing” påverkar inte det totala tryckfältet när det gäller det absoluta tryckvärdet. Samtidigt som den totala tryckförlusten minskar något med ökad hastighet. 5. Virveltransport från toppspelet till huvudkanalen kan på ett betydande sätt bidra till att skapa virvelns inre kärna. I senare delen av arbetet utvecklas och tillämpas en förenklad modell för plasmaaktivering av DBD baserad på litteratur [1], genom att använda UDF‐funktionen i kommersiell CFD programvara Fluent. Olika aktuatorläge, spänningar och frekvenser prövas i simuleringen och jämförs. De viktigaste slutsatserna är följande: 6. Aktuering av plasma visar en betydande dämpningseffekt på läckagevirveln i toppspelet både va det gäller dess storlek, bana och styrka. 7. Den dämpande effekten på läckagevirveln blir starkare när aktuator monteras närmare skovelns framkant. 8. Ökad aktuatorspänning leder till en starkare dämpande effekt på läckagevirveln. 9. Ökad aktuatorfrekvens leder till starkare dämpningseffekt på läckagevortex också.mDessutom fungerar frekvensen något bättre än spänningen. 10. Den relativa rörelsen av ”casing” försvagar effekten av plasmaaktuering. För att uppnå tillräcklig dämpningseffekt i riktiga kompressorer krävs mer effekt till aktuatorn. Flow control DBD Plasma actuation phenomenological model numerical simulation tip leakage flow compressor cascade. Flödesreglering DBD Plasma‐aktuator numerisk simulering toppspelsflöde kompressor kaskad. Engineering and Technology Teknik och teknologier

Search results