Global ETD Search

161	Understanding the effect of temperature and time on Gamma prime coarsening for Nickel-base superalloy Haynes 282 Vattappara, Kevin January 2019 (has links) Haynes 282 is a gamma prime (𝛾′)-strengthened nickel base superalloy developed in 2005, exhibiting a good combination of high temperature properties and fabricability. Microstructural features such as 𝛾′ and carbides play an important role in deriving the mechanical properties of the alloy during heat treatment. As Haynes 282 is a relatively new alloy with insufficient literature availability, the present thesis is aimed at studying the evolution of microstructure for different heat treatment times and temperature with a special focus on 𝛾′ phase precipitation kinetics with different initial conditions for the material. The study is divided into two sections with objectives which are focused on the different ends to the heat-treatment time scales. The first objective of this study was to investigate γ' precipitation at short heat treatment times and develop Time-Temperature Precipitation (TTP) and Hardness (TTH) diagrams for Haynes 282 using a novel arc heat treatment. In this technique, a steady state temperature gradient, covering room temperature to liquidus, was created using stationary TIG arc on a disc mounted on a water-cooled chamber. Aged and solutionized samples were arc heat treated for 1.5 minutes, 30 minutes and 4 hours. The study was complemented with temperature modelling, thermodynamic calculations, and 𝛾′ precipitation simulation. A unique graded microstructure formed, consisting of dendritic region in fusion zone; dissolution area of all phases including MC carbides, grain boundary carbides, and 𝛾′; grain boundary carbide zone, 𝛾′ band; and base metal. 𝛾′ precipitate size increased with increasing time and temperature. 𝛾′ precipitation simulation model was developed, and it showed very good agreement with experimental results. Finally, the results were summarized in TTH and TTP diagrams. The second objective in this work was to study understand the coarsening behaviour of 𝛾′ phase with an initial pre-heat-treated GKN heat treatment using furnace heat treatment. Isothermal heat treatments for temperatures from 800°C to 1120°C and times from 30 seconds to 96 hours were performed. Morphological changes in 𝛾′ phase, particle size distribution, grain sizes and hardness on these isothermal heat-treated states are presented in this work. Additionally, A TC PRISMA precipitation model was evaluated to predict 𝛾′sizes and compare it with the measurements. It was concluded that complex initial microstructure, containing bimodal distribution of 𝛾′ precipitates, caused deviations between predicted and measured values, while the model, in the previous objective, predicted the sizes in close approximation to the experimental values. Therefore, further understanding and development of precipitation kinetics with the software should be done to achieve closer results to the experiment. / Haynes 282 är ett gamma prime (𝛾′) - förstärkt superlegering av nickelbas som utvecklades 2005 och uppvisar en god kombination av högtemperaturegenskaper och tygbarhet. Mikrostrukturella egenskaper såsom 𝛾′ och karbider spelar en viktig roll för att få de mekaniska egenskaperna hos legeringen under värmebehandling. Eftersom Haynes 282 är en relativt ny legering med otillräcklig litteraturtillgänglighet syftar den aktuella avhandlingen till att studera utvecklingen av mikrostruktur för olika värmebehandlingstider och temperatur med ett särskilt fokus på 𝛾′ fasutfällningskinetik med olika initiala förhållanden för materialet. Studien är uppdelad i två sektioner med mål som är inriktade på de olika ändarna på värmebehandlings tidsskalorna. Det första syftet med denna studie var att undersöka 𝛾′nederbörd vid korta värmebehandlingstider och utveckla Time-Temperature Precipitation (TTP) och Hardness (TTH) diagram för Haynes 282 med användning av en ny bågvärmebehandling. I denna teknik skapades en jämn temperaturgradient, som täcker rumstemperatur till liquidus, med användning av stationär TIG-båge på en skiva monterad på en vattenkyld kammare. Åldriga och lösningsbara prover bågvärmebehandlades under 1,5 minuter, 30 minuter och 4 timmar. Studien kompletterades med temperaturmodellering, termodynamiska beräkningar och 𝛾′utfällningssimulering. En unik graderad mikrostruktur bildad, bestående av dendritisk region i fusionszon; upplösningsområde för alla faser inklusive MC-karbider, korngränsande karbider och 𝛾′; korngränsen karbidzon, 𝛾′ band; och oädel metall. 𝛾′utfällningsstorlek ökade med ökande tid och temperatur. 𝛾′utfällningssimuleringsmodell utvecklades, och den visade mycket bra överensstämmelse med experimentella resultat. Slutligen sammanfattades resultaten i TTH- och TTP-diagram. Det andra syftet med detta arbete var att studera förstå det förgrovning beteendemönster hos 𝛾′ fasen med en initial förvärmebehandlad GKN-värmebehandling med ugnsvärmebehandling. Isotermiska värmebehandlingar för temperaturer från 800 ° C till 1120 ° C och gånger från 30 sekunder till 96 timmar utfördes. Morfologiska förändringar i 𝛾′fasen, partikelstorleksfördelning, kornstorlekar och hårdhet på dessa isotermiska värmebehandlade tillstånd presenteras i detta arbete. Dessutom utvärderades en TC PRISMA-nederbördsmodell för att förutsäga 𝛾′ storlekar och jämföra den med mätningarna. Det drogs slutsatsen att komplex initial mikrostruktur, innehållande bimodal fördelning av 𝛾′-fällningar, orsakade avvikelser mellan förutspådda och uppmätta värden, medan modellen i det tidigare målet förutspådde storleken i nära anpassning till experimentvärdena. Därför bör ytterligare förståelse och utveckling av utfällningskinetik med programvaran göras för att uppnå närmare resultat till experimentet. Haynes 282 gamma prime (𝛾′) Arc-heat treatment COMSOL modelling isothermal transformation coarsening Thermo-Calc simulations Materials Engineering Materialteknik
162	A Simplified Approach to Thermomechanical Fatigue and Application to V-shaped Notches Bouchenot, Thomas 01 August 2013 (has links) A vast array of high value parts in land- and air-based turbomachinery are subjected to non-isothermal cycling in the presence of mechanical loading. Crack initiation, growth and eventual failure more significantly reduce life in these components compared to isothermal conditions. More accurate simulation of the stress and strain evolution at critical locations of components, as well as test specimens, can lead to a more accurate prediction of remaining life to a structural integrity specialists. The focus of this thesis is to characterize the effects of thermomechanical fatigue (TMF) on generic turbomachinery alloy. An expression that can be used to estimate the maximum and minimum stress under a variety of loading conditions is formulated. Analytical expressions developed here are modifications of classic mechanics of materials methods (e.g. Neuber's Rule and Ramberg-Osgood). The novel models are developed from a collection of data based on parametric finite element analysis to encompass the complex load history present in turbine service conditions. Relevance of the observations and formulated solutions are also explored for the case of a tensile specimen containing a v-shaped notch. Accurate estimations of non-isothermal fatigue presented here endeavor to improve component lifing and decrease maintenance costs. Mechanical Engineering
163	Development of Quantitative Rapid Isothermal Amplification Assay for Leishmania donovani Khan, Md Anik Ashfaq, Faisal, Khaledul, Chowdhury, Rajashree, Ghosh, Prakash, Hossain, Faria, Weidmann, Manfred, Mondal, Dinesh, El Wahed, Ahmed Abd 04 May 2023 (has links) Quantification of pathogen load, although challenging, is of paramount importance for accurate diagnosis and clinical management of a range of infectious diseases in a point-of-need testing (PONT) scenario such as in resource-limited settings. We formulated a quantification approach to test the standard-curve based absolute quantification ability of isothermal recombinase polymerase amplification (RPA) assay. As a test of principle, a 10-fold dilution series of Leishmania donovani (LD) genomic DNA prepared in nuclease-free-water (NFW), and from culture-spiked-blood (CSB) were tested, and a 15 min assay was performed. A modified algorithm was formulated to derive the detection outcome. The threshold-record times (Tr) in seconds thus obtained were plotted against the initial load of parasite genomes for log-linear regression analysis. The quantitative RPA (Q-RPA) assay was further evaluated against a LD quantitative (q)-PCR assay with DNA extracted from visceral and post-Kala-azar dermal leishmaniasis case specimens and stratified into different ranges of threshold cycle (Ct). The best-fitted regression models were found linear with mean r2/root mean square error (RMSE) values of residual points (in seconds) estimated as 0.996/8.063 and 0.992/7.46 for replicated series of NFW and CSB, respectively. In both series, the lower limit of detection reached less than 0.1 parasite genome equivalent DNA. Absolute agreement between Q-RPA and LD-qPCR was found for test positivity, and strong positive correlations were observed between the Tr and Ct values (r = 0.89; p < 0.0001) as well as between the absolute parasite loads (r = 0.87; p < 0.0001) quantified by respective assays. The findings in this very first Q-RPA assay for leishmaniasis are suggestive of its potential in monitoring LD load in clinical specimens, and the development of rapid Q-RPA assays for other infectious diseases. info:eu-repo/classification/ddc/610 ddc:610
164	Coarse Graining Nonisothermal Microswimmer Suspensions Auschra, Sven, Chakraborty, Dipanjan, Falasco, Gianmaria, Pfaller, Richard, Kroy, Klaus 30 March 2023 (has links) We investigate coarse-grained models of suspended self-thermophoretic microswimmers. Upon heating, the Janus spheres, with hemispheres made of different materials, induce a heterogeneous local solvent temperature that causes the self-phoretic particle propulsion. Starting from molecular dynamics simulations that schematically resolve the molecular composition of the solvent and the microswimmer, we verify the coarse-grained description of the fluid in terms of a local molecular temperature field, and its role for the particle’s thermophoretic self-propulsion and hot Brownian motion. The latter is governed by effective nonequilibrium temperatures, which are measured from simulations by confining the particle position and orientation. They are theoretically shown to remain relevant for any further spatial coarse-graining towards a hydrodynamic description of the entire suspension as a homogeneous complex fluid. info:eu-repo/classification/ddc/530 ddc:530
165	Etude par similitude de l'influence du vent sur les transferts de masse dans les bâtiments complexes / Study by similarity of wind influence on mass transfers in complex buildings Le Roux, Nicolas 05 December 2011 (has links) Les bâtiments résidentiels et industriels munis d'un réseau de ventilation constituent des installations complexes, susceptibles d'être le siège de transferts de masse et d'énergie variés, selon les situations de fonctionnement. Afin d'étudier ces transferts de masse, une méthodologie permettant d'établir des expérimentations à échelle réduite pour l'étude des écoulements isothermes, en régime permanent ou transitoire, a été développée. Cette méthodologie a été validée numériquement et expérimentalement sur des configurations simples, puis appliquée à deux configurations de référence, représentatives de celles rencontrées dans le domaine nucléaire.L'influence du vent sur les transferts de masse au sein de ces configurations, en situation de fonctionnement normale, dégradée (arrêt de la ventilation) ou accidentelle (surpression interne), a été étudiée dans la soufflerie climatique Jules Verne du CSTB. Les effets du vent, couplés ou non à une surpression interne, peuvent alors entraîner une perte partielle ou globale du confinement des polluants au sein des installations. De plus, la turbulence du vent peut induire des inversions instantanées des débits de fuite, qui ne sont pas identifiées en régime permanent. Par ailleurs, l'analyse de sollicitations transitoires montre la faible influence de l’inertie des branches sur les écoulements transitoires, pour des grandeurs caractéristiques d'une installation réelle. Enfin, des essais de traçage gazeux ont été réalisés afin d’étudier la dispersion d’un polluant au sein d’une configuration de référence soumise aux effets couplés du vent, de la ventilation mécanique et d'une surpression interne.La robustesse du code à zones SYLVIA, utilisé notamment pour appuyer les évaluations de sûreté des installations nucléaires, a été analysée à partir de ces résultats expérimentaux. La prise en compte des phénomènes physiques observés expérimentalement a été validée, en régimes permanent et transitoire. Toutefois, quelques limitations ont été identifiées pour l'étude de la dispersion d'un scalaire passif, du fait des hypothèses utilisées dans le code SYLVIA, comme dans tout code à zones (concentration homogène dans les locaux, propagation instantanée dans les branches et dans les locaux). / Residential and industrial buildings equipped with a ventilation system are complex facilities, where various heat and mass transfers could occur according to the operating conditions. In order to study these mass transfers, a methodology has been developed so as to carry out reduced-scale experiments for the study of isothermal flows, in steady or transient state. This methodology has been numerically and experimentally validated on simple configurations, and then applied to two standard configurations, representing nuclear facilities.The wind influence on mass transfers inside these configurations, in normal, damaged (stopping ventilation) or accidental (internal overpressure) situations, has been studied in the Jules Verne climatic wind tunnel of the CSTB. The wind effects, coupled or not with an internal overpressure, can lead to a partial or a total loss of the pollutant's containment inside buildings. Moreover, the wind turbulence can bring about instantaneous reversal leakage flowrates, which cannot be identified in steady state. In addition, the study of transient phenomena has highlighted the low influence of the branch inertia on transient flows, for typical values of real facilities. Finally, tracer tests have been carried out in order to study the pollutant dispersion inside a standard configuration subjected to wind, mechanical ventilation and internal overpressure effects.The reliability of the zonal code SYLVIA, used notably to support safety assessment in nuclear buildings, has been analyzed from these experimental results. The modelling of the physical phenomena experimentally observed has been validated, in steady and transient states. However, limitations have been identified for the study of pollutant dispersion, due to hypothesis used in SYLVIA code, as in all zonal codes (homogenous concentration inside rooms, instantaneous propagation inside branches and rooms). Réseaux de ventilation Similitude Régimes permanent et transitoire Écoulements isothermes Expérimentations à échelle réduite Code à zones SYLVIA Ventilation systems Similarity Steady and transient states Isothermal flows Reduced-scale experiments, Zonal code SYLVIA
166	Transformations de phase et évolutions des microstructures dans l'alliage de titane beta Ti-B19 / Phase transformations and microstructure evolutions in metastable beta titanium alloy Ti-B19 Chang, Hui 28 October 2010 (has links) Les évolutions de microstructures du nouvel alliage chinois Ti B19 ont été étudiées au cours de divers traitements thermiques et des relations entre microstructures et propriétés mécaniques ont été établies. Les cinétiques de transformations isothermes ont été établies par des mesures de résistivité électrique. Les structures et microstructures ont été caractérisées par DRX synchroton, Microscopies Optiques et Electroniques (MEB, MET). Les cinétiques de transformation et les caractéristiques microstructurales. Les cinétiques de transformation isothermes ont été obtenues, analysées (loi JMAK), et cet ensemble de résultats a conduit à l'établissement du diagramme TTT de l'alliage TiB19. Enfin il a été montré que la vitesse de chauffage a une très forte influence sur les transformations mises en jeu, et qu'une pré déformation plastique accélère les cinétiques de transformation (introduction de nouveaux sites de germination). Enfin les cinétiques de transformation ont été caractérisées en refroidissement continu depuis le domaine monophasé bêta. Une première approche de la modélisation des cinétiques de transformation a été menée en utilisant le loi JMAK et le principe d'additivité de Scheil. Enfin les relations entre microstructures et propriétés sont discutés / The phase transformations and microstructure evolutions has been characterized for different thermal treatments, and the relationships between final microstrures and properties have been investigated in the new metastable Ti-B19 alloy. The isothermal phase transformation kinetics and the influence of different heat treatment phaths have been establisheb by using in-situ electrical Resistivity. The structures have been determined by synchrotron X-Ray Diffraction and the microstructures were observed by SEM and TEM. The results show that phase transformation kinetics and microstructure characteristics are strongly dependent on the aging temperature (ranging from 300 to 700°C). The global isothermal phase transformation phase transformation kinetics has been got and anallyzed with JMAK equation, and the TTT diagram of Ti-B19 alloy has been established. We have also shown that the heating rate has remarkable influence on the isothermal phase transformation behaviors and the pre-deformation accelerates the transformation kinetics. The microstructure evolutions during cooling are obviously dependent on the cooling rates. A first attempt has been made to calculate the transformation kinetics during cooling using JMAK law and Scheil principle. Finally, the relationship between mechanical properties and microstructure has been discussed Alliage de titane bêta métastable Transformation de phases en phase solide Transformation isotherme Microstructures Propriétés mécaniques Metastable titanium alloy Solid phase transformation Isothermal transformation Microstructure Mechanical properties 620.189 322
167	Optimisation de la cristallisation d'un sel diastéréoisomère lors d'une résolution optique en réacteur fermé, et développement d'un mode de cristallisation continu / Optimization of the crystallization of a diastereomeric salt during an optical resolution in a batch reactor & development of a continuous crystallization operating mode Lerond, Lionel 28 November 2008 (has links) L’énantiomère R (énantiomère cible) d’un mélange racémique d’une molécule organique est isolé par cristallisation du sel diastéréoisomère qu’il forme préférentiellement en s’associant à l’acide énantiomériquement pur R-acétyl(L)valine. Cependant l’énantiomère S (contre-énantiomère) peut aussi cristalliser sous forme d’un sel de R-acétyl(L)valine. Les solubilités des deux sels sont déterminées par des cristallisations par refroidissement en réacteur fermé. La modélisation de ces données expérimentales permet de maximiser la quantité d’énantiomère R cristallisé en sel pur en réacteur fermé à une température choisie. Cette température est ensuite augmentée : la durée de filtration des cristaux, systématiquement obtenus sous forme d’aiguilles, est avantageusement réduite. Une réduction est encore obtenue en appliquant un profil de refroidissement favorisant la croissance des cristaux : au final, l’amélioration de la filtrabilité des cristaux est corrélée aux augmentations conjointes du facteur d’élongation et de la longueur des cristaux. La cristallisation est ensuite transposée à un mode de fonctionnement continu en injectant les réactifs séparément dans un réacteur ouvert. Afin d’atteindre des performances égales à celles du réacteur fermé, le temps de passage et la concentration de la solution de R-acétyl(L)valine sont ajustés : il en résulte une productivité accrue de la cristallisation. La filtrabilité des cristaux obtenus en réacteur continu reste cependant médiocre. Bien que toujours inférieur à celui atteint en réacteur fermé optimal, le facteur d’élongation des cristaux est tout de même augmenté en optant pour une configuration de cascade de deux réacteurs continus / The R enantiomer (target enantiomer) of the racemic mixture of an organic molecule is isolated by a preferential crystallization of the salt it forms by association with the enantiomerically pur acid R-acetyl(L)valine. The S enantiomer (counter enantiomer) may somehow also crystallize under the form a R-acetyl(L)valinate salt. Solubilities of the two salts are measured by cooling crystallizations in a batch reactor, carried out for various stoechiometric conditions. The interpretation and the modelisation of the experimental data gathered lead to the maximisation of the quantity of R enantiomer crystallized as a pur salt in a batch reactor by cooling crystallization to a given temperature. This temperature is then increased : the filtration duration of the crystals, always exhibiting the shape of needles, is thus advantageously decreased. A further decrease is made possible by applying a temperature cooling profile that promotes the growth of crystals. Finally, the enhancement of the filterability of crystals is correlated to an increase of the elongation factor of crystals. The crystallization is then transposed to a continuous operating mode : reactants are injected separately in a continuous stirred tank reactor. With a view to match the results of the optimized batch reactor, the residence time and the R-acetyl(L)valine concentration are adjusted : a better productivity is then obtained, though filterability remains lower. The elongation factor is slightly increased by implementing two continous stirred tank in serie. The complete range of possible enhancements of crystals morphology by such cascades could be further studied for such needle-like crystals Cristallisation Réacteur continu Refroidissement Diastéréoisomèrique Sel diastéréoisomère Résolution optique Isotherme Crystallization Continuous stirred tank Cooling Diastereoisomeric Optical resolution Diastereomeric salt Isothermal
168	The isothermal deformation of nickel aluminum bronze in relation to friction stir processing Pierce, Frank Allen 06 1900 (has links) Approved for public release, distribution is unlimited / The extreme strain, strain rate and temperature gradients during Friction Stir Processing (FSP) render measurement of key parameters in the stir zone infeasible with common methods. The objective of this research was to separate the effects that temperature and deformation in an experimental study of the microstructure and mechanical properties of Ni-AL bronze (NAB). This was accomplished by subjecting as-cast NAB material to several isothermal annealing and quenching treatments as well as isothermal hot rolling processes. Sufficient material was generated to provide results and data for subsequent optical microscopy, tensile, & hardness tests. All results were then compared to similar data collected from previous works completed here at Naval Postgraduate School and with other DARPA FSP program participants. During the course of this work correlations were drawn between FSP material and the material subjected to isothermal hotworking, which may enhance our understanding of the roles that various FSP process parameters have on the microstructural transformation sequence within this material. The hot-rolling study conducted here suggests that FSP process parameters leading to severe deformation at temperatures between 950-1000 C in the NAB material provides high ductility (elongation approximately 28%) with moderate strengths. / Lieutenant, United States Coast Guard Aluminum Friction stir processing Nickel-aluminum bronze NAB Isothermal deformation Annealing Optical microscopy Naval propellers Surface treatment Thermomechanically affected zone Shear deformation Homogenization of microstructure Grain refinement
169	Measurement of Self-Heating of Biomass Pellets using Isothermal Calorimetry Larsson, Ida January 2017 (has links) Self-heating in storage facilities of biomass pellet can lead to spontaneous combustion. This has resulted in many fires over the years, causing both financial and environmental losses. In order to assess the risk for spontaneous combustion of biomass pellets during storage, it is important to know how prone the fuel is to self-heating, i.e. to determine its reactivity. This thesis presents experimental work performed to develop a sensitive screening test procedure for biomass pellets, using isothermal calorimetry for direct measurement of the heat production rate. This method can be used to compare the reactivity of different biomass pellets. This could be useful for e.g. facility owners to gain better knowledge of their fuels propensity for self-heating and thereby facilitate safer storage. The screening test procedure can also be used for research purposes. Experiments have been performed with 31 different biomass pellet batches to investigate how the pellet composition, origin, etc. influence the reactivity of the pellets. The results from these experiments clearly show a significant difference in reactivity between different types of pellets. The results indicate that pine/spruce mix pellets are significantly more reactive than all other types of pellets tested, and that pellets consisting of 100 % pine are more reactive than pellets consisting of 100 % spruce. Pellets produced from winery wastes, straw, or eucalyptus, have low reactivity compared to pellets consisting of pine and/or spruce. The reactivity of the pellets was shown to be reduced by either introducing certain types of anti-oxidants into the pellets or by extracting lipids from the raw material of pellets. The screening test procedure is already being used today by some facility owners for assessing their fuels propensity for self-heating. The procedure is also one of the suggested test methods in “ISO/CD 20049 Solid biofuels — Determination of self-heating of pelletized biofuels”. / This thesis presents experimental work performed to develop a sensitive screening test procedure for biomass pellets, using isothermal calorimetry for direct measurement of the heat production rate. This method can be used to directly compare the reactivity, that is how prone the fuel is to self-heating, of different batches of biomass pellets. The results could be used for safety assessment by the industry or for research purposes to investigate how different factors influence the self-heating potential. Experiments were performed with 31 different biomass pellet batches to investigate how the pellet composition, origin, etc. influence the heat release rate. The results clearly show that there is a significant difference in reactivity between different types of pellets. Pine/spruce mix pellets are more reactive than the other types of pellets tested and pellets consisting of 100 % pine are more reactive than pellets consisting of 100 % spruce. Pellets produced from winery wastes, straw, or eucalyptus, have low reactivity compared to pellets consisting of pine and/or spruce. The results also show that the reactivity of the pellets can be reduced by either introducing certain types of anti-oxidants into the pellets or by extracting lipids from the raw material of pellets. isothermal calorimetry biomass pellets wood pellets self-heating reactivity screening test isoterm kalorimetri pellets biomassa självuppvärmning reaktivitet screeningtest Energy Systems Energisystem
170	"Simulação do processo de moldagem por injeção 2D usando malhas não estruturadas" / Simulation of the 2D Injection Molding Process Using Unstructured Meshes Estacio, Kémelli Campanharo 29 March 2004 (has links) Moldagem por injeção é um dos mais importantes processos industriais para produção de produtos plásticos finos. Esse processo é dividido essencialmente em quatro estágios: plastificação, preenchimento, empacotamento e resfriamento. O escoamento de um fluido caracterizado por alta viscosidade em uma cavidade estreita é um problema tipicamente encontrado em processos de moldagem por injeção.Neste caso, o escoamento pode ser descrito por uma formulação conhecida como aproximação de Hele-Shaw. Tal formulação pode ser derivada das equações de conservação tridimensionais usando um número de suposições a respeito do polímero injetado e da geometria da cavidade do molde, juntamente com a integração e o acoplamento das equações da conservação da quantidade de movimento e da continuidade. Essa formulação, referindo às limitações da geometria do molde como sendo canais estreitos e quase sem curvatura, é comumente denominada formulação 2 1/2D. Neste trabalho, é apresentada uma técnica para a simulação da fase de preenchimento de um processo de moldagem por injeção, usando essa formulação 2 1/2D, com um método de volumes finitos e malhas não estruturadas. O modelo de Cross modificado com dependência da temperatura de Arrhenius é empregado para descrever a viscosidade do polímero fundido. O campo de distribuição de temperatura é tridimensional e é resolvido usando um esquema semi-Lagrangeano baseado em volumes finitos. As malhas não estruturadas utilizadas são geradas por triangulação de Delaunay e o método numérico implementado usa a estrutura de dados topológica SHE - Singular Handle Edge, que é capaz de lidar com condições de contorno e singularidades, aspectos comumente encontrados em simulações numéricas de escoamento de fluidos. / Injection molding is one of the most important industrial processes for the manufacturing of thin plastic products. This process can be divided into four stages: plastic melting, filling, packing and cooling phases. The flow of a fluid characterized by high viscosity in a narrow gap is a problem typically found in injection molding processes. In this case, the flow can be described by a formulation known as Hele-Shaw approach. Such formulation can be btained from the three-dimensional conservation equation using a number of assumptions regarding the injected polymer and the geometry of the mold, together with the integration and the coupling of the momentum and continuity equations. This approach, referring to limitations of the mould geometry to narrow, weakly curved channels, is usually called 2 1/2D approach. In this work a technique for the simulation of the filling stage of the injection molding process, using this 2 1/2D approach, with a finite volume method and unstructured meshes, is presented. The modified-Cross model with Arrhenius temperature dependence is employed to describe the viscosity of the melt. The temperature field is 3D and it is solved using a semi-Lagrangian scheme based on the finite volume method. The employed unstructured meshes are generated by Delaunay triangulation and the implemented numerical method uses the topological data structure SHE - Singular Handle Edge, capable to deal with boundary conditions and singularities, aspects commonly found in numerical simulation of fluid flow. equação de Hele-Shaw finite volume method Hele-Shaw equation injetion molding malhas não estruturadas método de volumes finitos moldagem por injeção non isothermal problem problema não isotérmico unstructured meshes

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