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61	Utilisation de matériaux lignocellulosiques et d'impression 3D pour élaborer des structures contuctrices / Use of lignocellulosic materials and 3D printing for the elaboration of conductive carbon strutures Shao, Ying 29 September 2017 (has links) Cette thèse a pour l’objectif d’élaborer, à partir de technologie additive 3D (extrusion de gel), des structures conductrices (électriquement) et résistantes (mécaniquement) en utilisant exclusivement des matériaux lignocellulosiques. Les matériaux sélectionnés sont des microfibrilles de cellulose (MFC), du lignosulfonate de sodium (LS ou NaLS) et de la cellulose en poudre (CP). Ces trois constituants peuvent être utilisés pour élaborer des hydrogels aqueux compatibles avec l’impression 3D (extrusion). De plus, ce procédé d’impression permet la mise en forme avec une excellente définition de structures à base de précurseurs de carbone dont les géométries peuvent être adaptées aux différentes techniques de caractérisation selectionnées. / In the present work, electrically conductive and mechanically resistant carbon structures were elaborated by 3D printing and subsequent pyrolysis using microfibrillated cellulose/lignosulfonate/cellulose powder (labeled as MFC/LS/CP) blends. The processability of MFC/LS/CP slurries by 3D printing was examined by rheological tests in both steady flow and thixotropic modes. The printed MFC/LS/CP pastes were self-standing, provided a high printing definition and were proved to be morphologically stable to air drying and the subsequent pyrolysis. Pyrolysis at a slow rate (0.2°C/min) to a final temperature in the range of 400-1200°C was used to manufacture MFC/LS/CP carbons. The TGA/DTG was applied to monitor the thermal degradation of MFC/LS/CP materials in blends as well as in a separated form. The resulting carbons were further characterized in terms of morphology, microstructure and physical properties (such as density, electrical conductivity and mechanical strength). At 900°C, MFC/LS/CP carbons displayed a high electrical conductivity of 47.8 S/cm together with a low density of 0.74 g/cm3 as well as an important porosity of 0.58. They also achieved an elastic modulus maximum of 6.62 GPa. Such interesting electrical and mechanical properties would lead to a promising application of MFC/LS/CP- derived biocarbons in energy storage devices as electrode materials in close future. Mfc/ls Rhéologie Impression 3D Pyrolyse Analyse cinétique Caractérisation de carbone dure Mfc/ls Rheology 3D printing Pyrolysis Kinetic analysis Characterization of hard carbons 600
62	Optimalizace klapek pro letouny SKYLEADER / Flap otpitmization for SKYLEADER aircraft Kácal, Jan January 2017 (has links) This diploma thesis focuses on optimization of the flap for the ultralight aircraft Skyleader JA 600, which is produced by the Jihlavan s.r.o. company. Individual types of flaps used in ultralight aircrafts are described in the initial phase of the thesis. In addition, description of the plane of interest Skyleader has been conducted, while along with the basic characteristics the focus is mainly on its wing and flap. The thesis continues with detailed CFD method calibration task, which is mostly focused on the basic turbulent models comparison. The optimization task conducted within this diploma thesis includes CFD calculations to determine aerodynamic characteristics of the flap provided by Jihlavan company, and subsequent determination of its optimal position. An important part of this thesis is also evaluation of the load and strength of the flap in previously determined optimal position. At the end, the strength and fly tests of the flap in the new position are described.
63	CAE modelling of cast aluminium in automotive structures Singh, Subrat, Veditherakal Shreedhara, Sreehari January 2019 (has links) In the automobile industry, there is a big push for the automotive car manufacturers to base engineering decisions on the results of Computer Aided Engineering (CAE) solutions, and to transform the prototyping and testing, from a costly iterative process to a final verification and validation step. The variability in components material properties and environmental conditions together with the lack of knowledge about the underlying physics of complex systems often make it impractical to make reliable predictions based on only deterministic CAE models. One such area is the CAE modelling of cast aluminium components. These cast aluminium components have gained a huge relevance in the automobile industries due to their commendable mechanical properties. The advantage of the cast aluminium alloys are being a well-established alloy system in manufacturing processes, their functional integrity and relatively low weight. However, the presence of pores and micro-voids obtained during the manufacturing process constitutes a specific material behaviour and establishes a challenge in modelling of the cast materials. Furthermore, the low ductility of the materialdemands for the advanced numerical model to predict the failure. The main focus of this master thesis work is to investigate modelling technique of a cast aluminium alloy component, a spring tower, for a drop tower test and validate the predicted behaviour with the physical test results. Volvo Car Corporation currently uses a material model provided by MATFEM for cast aluminium parts which are explored in this thesis work, to validate the material model for component level testing. The methodology used to achieve this objective was to develop a boundary condition to perform component level tests in the drop tower and to correlate these with the obtained results found by using various modelling techniques in the explicit solver LS-DYNA. Therefore, precise and realistic modelling of the drop tower is crucial because the simulation results can be influenced by major design changes. A detailed finite element model for the spring tower has been developed from the observations made during the physical testing. The refined model showed good agreement with the existing model for the spring tower and observations from physical tests. Material failure model LS- Dyna Non-linear Finite Element analysis Cast aluminium Explicit FEA LS-DYNA Drop tower Spring tower Strut Tower FEM CrachFEM ANSA Applied Mechanics Teknisk mekanik
64	Sheet Metal Forming Simulations with Elastic Dies: Emphasis on Computational Cost Allesson, Sara January 2019 (has links) The car industry produces many of their car parts by using sheet metal forming, where one of the most time-consuming phases is the development and manufacturing of new forming tools. As of today, when a new tool is to be evaluated in terms of usability, a forming simulation is conducted to predict possible failures before manufacturing. The assumption is then that the tools are rigid, and the only deformable part is the sheet metal itself. This is however not the case, since the tools also deform during the forming process. A previous research, which is the basis of this thesis, included a model with only elastic tools and showed results of high accuracy in comparison to using a rigid setup. However, this simulation is not optimal to implement for a daily based usage, since it requires high computational power and has a long simulation time. The aim and scope for this thesis is to evaluate how a sheet metal forming simulation with elastic tool consideration can be reduced in terms of computational cost, by using the software LS-DYNA. A small deviation of the forming result is acceptable and the aim is to run the simulation with a 50-75 % reduction of time on fewer cores than the approximate 14 hours and 800 CPUs that the simulation requires today. The first step was to alter the geometry of the tools and evaluate the impact on the deformations of the blank. The elastic solid parts that only has small deformations are deleted and replaced by rigid surfaces, making the model partly elastic. Later, different decomposition methods are studied to determine what kind that makes the simulation run faster. At last, a scaling analysis is conducted to determine the range of computational power that is to be used to run the simulations as efficient as possible, and what part of the simulation that is affecting the simulation time the most. The correlation of major strain deviation between a fully elastic model and a partly elastic model showed results of high accuracy, as well as comparison with production measurements of a formed blank. The computational time is reduced by over 90 % when using approximately 65 % of the initial computational power. If the simulations are run with even less number of cores, 10 % of the initial number of CPUs, the simulation time is reduced by over 70 %. The conclusion of this work is that it is possible to run a partly elastic sheet metal forming simulation much more efficient than using a fully elastic model, without reliability problems of the forming results. This by reducing the number of elements, evaluate the decomposition method and by conducting a scaling analysis to evaluate the efficiency of computational power. / Bilindustrin producerar många av sina bildelar genom att tillämpa plåtformning, där en av de mest tidskrävande faserna är utveckling och tillverkning av nya formningsverktyg. Idag, när ett nytt verktyg ska utvärderas med avseende på användbarhet, genomförs en formningssimulering för att förutsäga eventuella fel innan tillverkning. Antagandet är då att verktygen är stela och den enda deformerbara delen är själva plåten. Det är dock inte så, eftersom verktygen också deformeras under formningsprocessen. Tidigare forskning, som ligger till grund för detta examensarbete, inkluderade en modell med endast elastiska verktyg och visade resultat med hög noggrannhet i jämförelse med att använda stela verktyg. Simuleringen med elastiska verktyg är emellertid inte optimal att implementera för daglig användning, eftersom den kräver hög beräkningskraft och har en lång simuleringstid. Syftet och omfattningen av detta examensarbete är att utvärdera hur en plåtformningssimulering med elastiska verktyg kan minskas med avseende på beräkningskostnaden, genom att använda programvaran LS-DYNA. En liten avvikelse från formningsresultatet är acceptabelt, och målet är att köra simuleringen med en 50-75 % minskning av tiden på färre kärnor än ungefär 14 timmar och 800 processorer som simuleringen kräver idag. Det första steget är att ändra verktygets geometri och utvärdera inverkan på deformationerna av plåten. De elastiska solida verktygsdelarna som endast har små deformationer raderas och ersätts av stela ytor, vilket gör modellen delvis elastisk. Senare studeras olika dekompositionsmetoder för att avgöra vilka som gör simuleringen snabbare. Till sist utförs en skalningsanalys för att bestämma antalet processorer som ska användas för att köra simuleringen så effektivt som möjligt. Korrelationen av huvudtöjningarna mellan en helt elastisk modell och en delvis elastisk modell visade resultat av hög noggrannhet, såväl som jämförelse med produktionsmätningar av en format plåt. Beräkningstiden minskar med över 90 % när man använder ungefär 65 % av den ursprungliga beräkningskraften. Om simuleringarna körs med färre antal kärnor, cirka 10 % av ursprungligt antal CPUer, minskar simuleringstiden med 70 %. Slutsatsen av detta arbete är att det är möjligt att köra en delvis elastisk plåtformningssimulering mycket effektivare än att använda en helt elastisk modell, utan att de resulterar i pålitlighetsproblem. Detta genom att minska antalet element, utvärdera dekompositionsmetoden och genom att genomföra en skalningsanalys för att utvärdera effektiviteten av beräkningskraften. / Reduced Lead Time through Advanced Die Structure Analysis - Swedish innovation agency Vinnova Elastic Sheet Metal Forming Simulation Computational Cost Decomposition LS-DYNA Elastisk plåtformningssimulering beräkningskostnad dekomposition LS-DYNA Other Mechanical Engineering Annan maskinteknik
65	Spårning av vägsalt och vattenlösliga föroreningar med CVES och EM prospektering / Tracing Road Salt and Water-Soluble Pollutants with CVES and EM Probing Holmberg, Alicia, Bethoon, Tania January 2022 (has links) Vid utformning av väginfrastruktur borde trafikrelaterade utsläpp med ursprung från väg- och däckslitage samt halkbekämpning tas hänsyn till för att nå en verklig hållbar utveckling. Exempel på vägrelaterade utsläpp är aluminium, bly, koppar, kadmium, krom och zink. I Sverige sprids det omkring 200 000 - 230 000 ton salt per år på vägarna för att bekämpa halka under vinterhalvåret. Vattenlösliga föroreningar antas spridas till omkringliggande miljöer på samma sätt som vägsalt gör. Därmed syftar projektet till att observera den elektriska resistiviteten och konduktiviteten som vägsalt ger upphov till, för att spåra utbredningen av vägsaltet och andra vattenlösliga trafikrelaterade föroreningar, samt dess påverkan på närliggande miljöer. Mätmetoderna som användes var CVES som bidrog med resistivitetsvärden samt EM som bidrog med konduktivitetsvärden. Mätningarna utfördes vid tre tillfällen; kring Arningevägen, E18 samt Skålhamravägen. På grund av tekniska fel har dock färre resistivitetsmätningar gjorts vid E18 i jämförelse med de andra vägarna som undersöktes. Resultatet från och analys av mätningar från respektive mätmetod presenteras visuellt i figurer med hjälp av programmen Res2DInv, Voxler och Surfer. Från dessa figurer kan slutsatser kring föroreningars potentiella spridning dras. Samtliga mättillfällen visade att utbredningen av vägsalt, och därmed föroreningar, spårades till områden närmast vägkanten men även ner till grundvattnet. Ett antal felkällor och begränsningar har påverkat resultatet, exempelvis att metoderna som användes i detta arbete inte undersöker exakta mängder av föroreningar. Detta eftersom mätmetoderna som har används är indirekta metoder som syftar till att spåra vägsalt. Vägarnas storlek och trafikmängd har även vägts in och överläggs kring hur dessa påverkat resultaten. Det framkommer att ju mer trafikerad en väg är desto mer sprids vattenlösliga vägrelaterade föroreningar. Det diskuteras även om hur omkringliggande miljö kan påverkas samt vilka av Sveriges miljömål och de globala målen är av relevans och motverkas. / When planning road infrastructure, traffic-related emissions originating from road and tire wear, as well as anti-skid mitigations, should be taken into account in order to achieve real sustainable development. Examples of road-related emissions are aluminum, lead, copper, cadmium, chromium and zinc. In Sweden, around 200,000 - 230,000 tonnes of salt per year are spread on roads to prevent slippage during the winter. Water-soluble pollutants are assumed to spread to surrounding environments the same way as road salt does. Thus, the project aims to observe the electrical resistivity and conductivity that road salt gives rise to, in order to trace the distribution of road salt and other water-soluble traffic-related pollutants, as well as its impact on nearby environments. The measurement methods used were CVES which provided resistivity values and EM which provided conductivity values. The measurements were performed on three occasions; around Arningevägen, E18 and Skålhamravägen. Due to technical errors however, fewer resistivity measurements have been made at E18 in comparison with the other roads that were investigated. The results and analysis from each measurement method are presented visually in figures using the programs Res2DInv, Voxler and Surfer. From these figures, conclusions can be drawn about the potential spread of pollutants. All measurement occasions showed that the distribution of road salt, and thus pollution, was traced to areas closest to the roadside but also down to the groundwater. A number of sources of errors and limitations have affected the result, for example that the methods used do not examine exact amounts of pollutants. This is because the measurement methods that have been used are indirect methods that aim to detect road salt. The size and amount of traffic on the roads have also been weighed in and discussed as to how these have affected the results. It appears that the busier a road is, the more water-soluble road-related pollutants are spread. It is also discussed how the surrounding environment can be affected and which of Sweden's environmental goals and Sustainable Development Goals are relevant and counteracted. CVES EM road salt water soluble pollutants geophysical measurement method ABEM Terrameter LS Slingram CVES EM vägsalt vattenlösliga föroreningar geofysiska mätmetoder ABEM Terrameter LS Slingram Environmental Management Miljöledning
66	An Arbitrary Lagrangian-Eulerian Finite Element Method for Shock Wave Propagation: Validating Simulations of Underwater Explosions / En finit elementmetod med ALE för stötvågsutbredning: validering av simulerade undervattensdetonationer Sandström, Sebastian January 2021 (has links) Underwater explosions are often modeled with Arbitrary Lagrangian-Eulerian (ALE) Finite Element Methods. The objective of this thesis is to validate the simulation method, with respect to the propagating shock wave. A two-dimensional axisymmetric model of a spherical TNT charge submerged in water is simulated using LS-DYNA. The explosive is modeled with the Burn Fraction technique and the Jones-Wilkins-Lee equation of state. Water is modeled as a non-viscous fluid, with the Grüneisen equation of state. The convergence for different mesh resolutions, the effect of different advection methods, and varied constants in the artificial viscosity are examined. Generally, the simulations agree well with empirical results, but the maximum pressure diminishes more rapidly with distance compared to experiments. The excessive dampening is most notable in the early stages of the propagation. Also, unexpected oscillations are observed near the discontinuity. The choice of advection scheme and constants in the artificial viscosity do not resolve the issues suggesting that other numerical techniques for treating the discontinuity should be considered. / Undervattensexplosioner simuleras ofta med ALE-baserade finita elementmetoder. Detta examensarbete avser att validera simuleringsmetoden med hänsyn till stötvågens utbredning i vattnet. En tvådimensionell axisymmetrisk modell av en sfärisk TNT-laddning nedsänkt i vatten simuleras i LS-DYNA. Laddningen modelleras med hjälp av brinnfraktioner och Jones-Wilkins-Lee tillståndsekvation. Vattnet modelleras som en inviskös fluid tillsammans med Grüneisens tillståndsekvation. Nätkonvergens, val av advektionsmetod och ändring av konstanter i den artificiella viskositeten studeras. Övergripande resultat stämmer väl överens med empirisk data, men stötvågens topptryck avtar fortare än väntat. Denna dämpning är tydligast i utredningens tidiga skeden. Dessutom observeras oväntade oscillationer kring stötvågens diskontinuerliga tryckprofil. Val av advektionsmetod och konstanter tillhörande artificiella viskositeten verkar ha liten betydelse för resultaten. En alternativ numerisk metod för behandling av stötvågens diskontinuitet bör implementeras. finite element applied mathematics computational mathematics hydrocode arbitrary lagrangian-eulerian LS-DYNA tillämpad matematik beräkningsteknik finita elementmetoden hydrokod arbitrary lagrangian-eulerian LS-DYNA Computational Mathematics Beräkningsmatematik
67	A finite element study of shell and solid element performance in crash-box simulations / En jämförande finita elementstudie av skal- och solidelement i simulering av krockboxar Bari, Mahdi January 2015 (has links) This thesis comprehends a series of nonlinear numerical studies with the finite element software's LS-Dyna and Impetus AFEA. The main focus lies on a comparative crash analysis of an aluminium beam profile which the company Sapa technology has used during their crash analysis. The aluminium profile has the characteristic of having different thickness over span ratios within the profile. This characteristic provided the opportunity to conduct a performance investigation of shell and solid elements with finite element analysis. Numerical comparisons were made between shell and solid elements where measurable parameters such as internal energy, simulation times, buckling patterns and material failures were compared to physical tests conducted prior to this thesis by Sapa technology. The performance investigation of shell and solid elements was initiated by creating models of the aluminium profile for general visualization and to facilitate the meshing of surfaces. The meshing procedure was considered to be an important factor of the analysis. The mesh quality and element orientations were carefully monitored in order to achieve acceptable results when the models were compared to physical tests. Preliminary simulations were further conducted in order to obtain a clear understanding of software parameters when performing crash simulations in LS-Dyna and Impetus AFEA. The investigated parameters were element formulations and material models. A general parameter understanding facilitated in the selection of parameters for actual simulations, where material failure and damage models were used. In conclusion, LS-Dyna was observed to provide a bigger internal energy absorption during the crushing of the beam with longer simulation times for solid elements when compared to shell elements. Impetus AFEA did on the other hand provide results close to physical test data with acceptable simulation times when compared to physical tests. The result difference obtained from the FE-software's in relation to physical crash experiments were considered to be varied but did indicate that shell elements were efficient enough for the specific profile during simulations with LS-Dyna. Impetus AFEA proved that the same time to be numerically efficient for energy approximations with solid elements refined with the third polynomial. Crash analysis solid elements shell elements LS-Dyna Impetus AFEA Hypermesh
68	A LABORATORY INSTRUMENT COMPUTER. Kim, Yong Chin. January 1982 (has links) No description available. Computer engineering. Computers -- Scientific applications. LS 11 (Computer)
69	On the Rational Retraction Index Paradis, Philippe 26 July 2012 (has links) If X is a simply connected CW complex, then it has a unique (up to isomorphism) minimal Sullivan model. There is an important rational homotopy invariant, called the rational Lusternik–Schnirelmann of X, denoted cat0(X), which has an algebraic formulation in terms of the minimal Sullivan model of X. We study another such numerical invariant called the rational retraction index of X, denoted r0(X), which is defined in terms of the minimal Sullivan model of X and satisfies 0 ≤ r0(X) ≤ cat0(X). It was introduced by Cuvilliez et al. as a tool to estimate the rational Lusternik–Schnirelmann category of the total space of a fibration. In this thesis we compute the rational retraction index on a range of rationally elliptic spaces, including for example spheres, complex projective space, the biquotient Sp(1) \ Sp(3) / Sp(1) × Sp(1), the homogeneous space Sp(3)/U(3) and products of these. In particular, we focus on formal spaces and formulate a conjecture to answer a question posed in the original article of Cuvilliez et al., “If X is formal, what invariant of the algebra H∗(X;Q) is r0(X)?” Rational homotopy theory Lusternik–Schnirelmann category LS category Rational retraction index Rationally elliptic spaces Formal spaces
70	Finite element analysis and optimisation of egg-box energy absorbing structures Sanaei, Maryam January 2013 (has links) This study investigates the mechanical and geometrical attributes of egg–box energy absorbing structures as crash safety barriers in the automotive industry. The research herein was originated from the earlier work of Prof. Shirvani, patented and further investigated by Cellbond Composites Ltd. who has invested in further research, for developing an analytical tool for geometric optimisation as an enhanced resolution to various shapes and materials. Energy absorption in egg-box occurs through plastic deformation of cell walls, examined through non–linear finite element simulations using ANSYS® and ANSYS/LS–DYNA® FE packages. Experimental dynamic crash tests have been designed to verify the validity of the FE simulations. Geometrical models are defined as 3D graphical representations, outlined in detail. Further, the impact behaviour of commercially pure aluminium egg-box energy absorbers is studied to identify the optimum design parameters describing the geometry of the structure. A simulation-based multi-objective optimisation strategy is employed to find a set of Pareto-optimal solutions where each solution represents a trade-off point with respect to the two conflicting objectives: the maximum impact force and the energy absorption capacity of the structure. The aim is to simultaneously minimise the former and maximise the latter, in the attempt to find purpose–specific optimal egg–box geometries. In light of the associated outcomes, it is shown that egg–box geometries with < ω ), thin walls (t < 1mm), short inter–peak distances and small peak diameters. M – < ω ), thin walls (t < 1mm), lengthy inter–peak distances and smaller peak diameters. It is concluded that, egg–box structures combined in the form of sandwich panels can be designed per application to act as optimised energy absorbers. Results of the proposed optimised sandwich structure are verified using analytical techniques. 624.1

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