Modelagens teóricas e empíricas aplicadas à investigação da conexão entre as propriedades petrofísicas e elásticas em rochas carbonáticas / Theoretical and empirical models applied to the investigation of connection between the petrophysical and elastic properties on carbonate rocks

Abreu, Elita Selmara de

17 August 2018

Orientadores: Sandro Guedes de Oliveira, Lúcia Duarte Dillon / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin / Made available in DSpace on 2018-08-17T17:53:23Z (GMT). No. of bitstreams: 1 Abreu_ElitaSelmarade_M.pdf: 3986219 bytes, checksum: 3254aa4fe691af01904819c1fb348ada (MD5) Previous issue date: 2010 / Resumo: O principal propósito dessa dissertação é estudar modelos de meio efetivo de física de rochas que conecte as propriedades petrofísicas e as propriedades elásticas, assim como a sua aplicação na investigação dessas propriedades em rochas carbonáticas. Inicialmente será feita uma introdução a alguns modelos de física de rochas para meio efetivo, conhecidos como modelo de Voigt-Reuss-Hill, modelo de Kuster & Toksöz, modelo Diferencial de Meio Efetivo e relação de Gassmann, com objetivo de estabelecer os parâmetros que serão medidos e utilizados no desenvolver do trabalho. Após essa parte introdutória, baseado no modelo de Xu-Payne, foram realizadas uma série de análises de atributos geométricos, como a distribuição de tipos de poros, obtidas através de lâminas petrográficas com intuito de descrever a correlação entre as propriedades petrofísicas e elásticas e assim poder calibrar o modelo teórico utilizado na predição dessas propriedades. Dessa forma, o modelo calibrado passa a desempenhar um papel mais condizente com o sistema poroso da rocha permitindo uma melhor correlação entre os parâmetros elásticos e petrofísicos. Os resultados obtidos mostram que a utilização da informação de lâminas petrográficas, na parametrização do modelo, torna o método mais robusto na predição e conexão das propriedades elásticas e petrofísicas de rochas carbonáticas, tornando confiável a mudança de escala rocha-perfil, bem como possibilitando a predição qualitativa de propriedade permo-porosas a partir da velocidade da rocha / Abstract: The main purpose of this dissertation is to study rock physics effective models that connect the petrophysics and elastic properties as well as its application on the investigation of these properties on carbonate rocks. Firstly, we make an introduction to some rock physics of effective models as: Voig-Reuss-Hill, Kuster&Toksöz, Differential Effective Medium, Gassmann¿s Relation, aiming at establishing the parameters that will be measured and used latter. After this introductory part and based on the Xu-Payne model, several geometric factors analysis was done like pore types distribution, obtained by thin sections, with the intention of describing the correlation between the petrophysics and elastic properties. In this way, the model becomes more compatible with the rock porous medium, allowing a better correlation between the petrophysics and elastic parameters. Our results show that using the thin section information on the model parametrization, the predictability and connectivity of petrophysics and elastic properties applied to carbonate rocks become more robust, making trustable the upscale rock-well log and also enabling the permo-porosity properties prediction, in a qualitative way, through the velocity measurements / Mestrado / Física / Mestra em Física

Física de rochas

Petrofísica

Rock physics

Petrophysics

Carbonate rocks - Elastic properties

Synthèse, caractérisations structurale et mécanique de nouveaux matériaux tellurites pour des applications en optique non linéaire / Synthesis, structural and mechanical investigations of new tellurite materials for non-linear optical applications

Ghribi, Nabila

26 January 2015

Les matériaux tellurites possèdent des propriétés optiques non linéaires exceptionnelles, avec des valeurs de la susceptibilité optique non linéaire d’ordre trois de l’ordre de 10 à 50 fois supérieures à celle de la silice pure, favorisant alors l’efficacité des effets non linéaires. L’origine de ces propriétés optiques exceptionnelles est associée non seulement à la présence de la paire libre mais aussi à une « délocalisation » électronique très forte le long des ponts Te-O-Te dans des chaînes polymérisées (TeO2)p. Ainsi, nos recherches expérimentales ont porté sur les deux systèmes ternaires suivants : TeO2-TiO2-ZnO (TTZ) et TeO2-GeO2-ZnO (TGZ).Les domaines vitreux ont été délimités, la stabilité thermique augmente en fonction de l’ajout de ZnO, TiO2 et GeO2. L’étude vibrationnelle réalisée par spectroscopie de diffusion Raman et réflectivité spéculaire infrarouge, a mis en évidence une faible dépolymérisation du réseau vitreux par rupture des chaînes formées via des ponts Te-O-Te. Pour les teneurs élevées en ZnO, ce dernier contribue à une compensation de cette rupture par la formation de nouveaux ponts Te-O-Zn et/ou Zn-O-Zn. Une étude complète des propriétés mécaniques a été menée à la fois à température ambiante et en fonction de la température, notamment au passage de la température de transition vitreuse. L’augmentation de la teneur en ZnO dans les verres TTZ et TGZ a augmenté globalement les modules élastiques. Enfin, la diminution de la susceptibilité optique non linéaire du troisième ordre avec l’ajout de ZnO, nous a permis de montrer l’importance de la présence de chaînes composées de ponts Te-O-Te dans la structure du verre à base de dioxyde de tellure. / Tellurite materials possess exceptional nonlinear optical properties, with values of the third-order nonlinear optical susceptibility are 10 to 50 times higher than in pure silica, favoring then the efficiency of the nonlinear effects. The origin of these exceptional optical properties is not only associated with the presence of the electronic lone pair, but also with the very strong electronic "delocalization" along Te-O-Te bridges in polymerized chains (TeO2)p. Our experimental researches concerned the following both ternary glass systems: TeO2-TiO2-ZnO (TTZ) and TeO2-GeO2-ZnO (TGZ).The glass formation domains were determined, the thermal stability increases with the increased amount of ZnO, TiO2 and GeO2. The vibrational study carried out using Raman spectroscopy and specular infrared reflectivity, revealed that the increase of the ZnO amount leads to a slight depolymerization of the glass network by breaking chains formed via Te-O-Te bridges. For higher ZnO contents, the latter contributes to a compensation of this break by the formation of new bridges: Te-O-Zn and/or Zn-O-Zn. Mechanical properties were studied at the same time at room and high temperature, in particular around the glass transition temperature. The increase of the ZnO content in TTZ and TGZ glasses increased globally elastic modulus. Finally, the decrease of the third-order nonlinear optical susceptibility with the increased ZnO concentration emphasizes the role of the presence of chains consisted of Te-O-Te bridges in the structure of the tellurite glass.

Tellurites

Spectroscopie Raman

Propriétés élastiques

Optique non-linéaire

Tellurites

Raman Spectroscopy

Elastic properties

Nonlinear optic

620.144

Huzuni

Short, Bernard Kashmere

01 December 2018

Huzuni is a composition for a sinfonietta ensemble comprised of flute, clarinet, oboe, bassoon, horn, trumpet, trombone, two percussion instruments, piano, violin, viola, violoncello, double bass. The inspiration for it began when I was told that my music was too guarded and that a greater degree of emotion was needed. Such a critical response led me to reflect on compositional techniques, styles, and approaches that were outside of my comfort zone, all of which became the inspiration for this work. Huzuni, Swahili for grief, , is a thirteen-minute single movement work in three sections that reflects the raw emotions in dealing with grief. The form of the composition exposes the five stages of grief-denial, anger, bargaining, depression and acceptance- first introduced in 1969 by Elisabeth Kübler-Ross who founded the Kübler-Ross Model. In Huzuni, we move through each stage slightly differently than in the grief model. The first section establishes denial that leads directly into the bargaining stage. Throughout this movement, g minor provides a sense of denial of truth, achieved in part because the traditional and expected g minor tonic-dominant-tonic progression is replaced with i-v-vi. This replacement weakens g minor and sets up different expectations for the listener. The second section begins with “depression” and transitions to “anger.” Throughout this section, dissonance is emphasized and helps to suppress a clear and perceivable tonal center. “Depression” functions as a bridge that slowly and gradually simulates a sense of despair. When juxtaposed against the first section, it shows us that consciousness can be related to tonality and unconsciousness to atonality. Although the second section might be considered the lowest emotional point of the work, I attempted to imbue it with a sense of humor that represents the working through of difficulties while never losing faith. The third and final section exposes the idea of acceptance which is achieved by a juxtaposition of sections one (g minor) and three (B major). The ascending third relationship between their two keys suggests the triumphant climb from a depressed state into a state of acceptance that is finally resolved, in the coda, in the key of E major simulating the sense of moving on. The work relies on processes drawn from electronic music in which sound masses are transformed by adding or subtracting discrete variables, or single parameters of sound and time: pitch, rhythm, and dynamics. For example, bars 111-127 contain a rhythmic figure in the piano that slows down and is transformed into a sound-mass. That sound-mass is then orchestrated throughout different instrumental groupings, creating a spatialized musical effect where the phasing of the sound mass from one instrumental group to the next changes the way the listener experiences the piece. Passing the main melody from one instrumental group to another quickly creates a three-dimensional listening space where the listener can experience a change in timbre in addition to the isolation of the harmonic series as the melody passes through each group. Throughout the compositional process I attempted to incorporate the elastic properties of time and space made possible using the tools found in 8-channel electronic music. These tools were incorporated by manipulating both chordal progressions and orchestration as illustrated in the previous paragraph. Such a musical effect spatializes sound by diffusing energy evenly throughout a performance environment. The result is an immersive listening experience, in which sound is generated from specific directions at precise times, different from the standard front and center direction we have come to expect.

Elastic Properties

Grief

Kuber-Ross Model

Sinfonietta Ensemble

Spatialization

Tension

Music

Evaluation on mechanical properties of micro/nano-meter scale materials by resonant vibration / 共振を用いたマイクロ/ナノスケール材料の機械的特性の評価

Fang, Hui

23 March 2016

京都大学 / 0048 / 新制・論文博士 / 博士(工学) / 乙第13008号 / 論工博第4133号 / 新制||工||1649(附属図書館) / 32936 / (主査)教授 北村 隆行, 教授 北條 正樹, 教授 琵琶 志朗 / 学位規則第4条第2項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Micro/nano scale

Vibration testing

Elastic properties

Fatigue damage

Size dependence

500

Hyperelastic modelling of rubber behaviour in finite element software

Wadham-Gagnon, Matthew.

January 2006

No description available.

Rubber -- Mechanical properties.

Rubber -- Elastic properties.

Elasticity in Microstructure Sensitive Design Through the use of Hill Bounds

Henrie, Benjamin L.

31 May 2002

In engineering, materials are often assumed to be homogeneous and isotropic; in actuality, material properties do change with sample direction and location. This variation is due to the anisotropy of the individual grains and their spatial distribution in the material. Currently there is a lack of communication between the design engineer, material scientist, and processor for solving multi-objective/constrained designs. If communication existed between these groups then materials could be designed for applications, instead of the reverse. Microstructure sensitive design introduces a common language, a spectral representation, where both design properties and microstructures are expressed. Using Hill bounds, effective elastic properties are expressed within the spectral representation. For the elastic properties, two FCC materials, copper and nickel, were chosen for computation and to demonstrate how symmetry enters into the methodology. This spectral representation renders properties as hyper-surfaces that translate through a multi-dimensional Fourier space depending on the property value of the hyper-surface. Property closures are generated by condensing the information contained within the multi-dimensional Fourier space into a 2-D representation. This compaction of information is beneficial for a quick determination of property limits for a particular alloy system. The design engineer can now dictate the critical design properties and receive sets of microstructures that satisfy the design objectives.

microstructure sensitive design

elastic properties

Hill bounds

design properties

microstructures

hyper-surfaces

fourier space

Mechanical Engineering

The Role of Bi/Material Interface in Integrity of Layered Metal/Ceramic / The Role of Bi/Material Interface in Integrity of Layered Metal/Ceramic

Masini, Alessia

January 2019

The present doctoral thesis summarises results of investigation focused on the characterisation of materials involved in Solid Oxide Cell technology. The main topic of investigation was the ceramic cell, also known as MEA. Particular attention was given to the role that bi-material interfaces, co-sintering effects and residual stresses play in the resulting mechanical response. The first main goal was to investigate the effects of the manufacturing process (i.e. layer by layer deposition) on the mechanical response; to enable this investigation, electrode layers were screen-printed one by one on the electrolyte support and experimental tests were performed after every layer deposition. The experimental activity started with the measurement of the elastic characteristics. Both elastic and shear moduli were measured via three different techniques at room and high temperature. Then, uniaxial and biaxial flexural strengths were determined via two loading configurations. The analysis of the elastic and fracture behaviours of the MEA revealed that the addition of layers to the electrolyte has a detrimental effect on the final mechanical response. Elastic characteristics and flexural strength of the electrolyte on the MEA level are sensibly reduced. The reasons behind the weakening effect can be ascribed to the presence and redistribution of residual stresses, changes in the crack initiation site, porosity of layers and pre-cracks formation in the electrode layers. Finally, the coefficients of thermal expansion were evaluated via dilatometry on bulk materials serving as inputs for finite elements analyses supporting experiments and results interpretation. The second most important goal was to assess the influence of operating conditions on the integrity of the MEA. Here interactions of ceramic–metal interfaces within the repetition unit operating at high temperatures and as well at both oxidative and reductive atmospheres were investigated. The elastic and fracture responses of MEA extracted from SOC stacks after several hours of service were analysed. Layer delamination and loss of mechanical strength were observed with increasing operational time. Moreover, SEM observations helped to detect significant microstructural changes of the electrodes (e.g. demixing, coarsening, elemental migration and depletion), which might be responsible for decreased electrochemical performances. All the materials presented in this work are part of SOC stacks produced and commercialised by Sunfire GmbH, which is one of the world leading companies in the field.

Density Functional Theory in Computational Materials Science

Osorio Guillén, Jorge Mario

January 2004

<p>The present thesis is concerned to the application of first-principles self-consistent total-energy calculations within the density functional theory on different topics in materials science.</p><p>Crystallographic phase-transitions under high-pressure has been study for TiO2, FeI2, Fe3O4, Ti, the heavy alkali metals Cs and Rb, and C3N4. A new high-pressure polymorph of TiO2 has been discovered, this new polymorph has an orthorhombic OI (Pbca) crystal structure, which is predicted theoretically for the pressure range 50 to 100 GPa. Also, the crystal structures of Cs and Rb metals have been studied under high compressions. Our results confirm the recent high-pressure experimental observations of new complex crystal structures for the Cs-III and Rb-III phases. Thus, it is now certain that the famous isostructural phase transition in Cs is rather a new crystallographic phase transition.</p><p>The elastic properties of the new superconductor MgB2 and Al-doped MgB2 have been investigated. Values of all independent elastic constants (c11, c12, c13, c33, and c55) as well as bulk moduli in the a and c directions (Ba and Bc respectively) are predicted. Our analysis suggests that the high anisotropy of the calculated elastic moduli is a strong indication that MgB2 should be rather brittle. Al doping decreases the elastic anisotropy of MgB2 in the a and c directions, but, it will not change the brittle behaviour of the material considerably.</p><p>The three most relevant battery properties, namely average voltage, energy density and specific energy, as well as the electronic structure of the Li/LixMPO4 systems, where M is either Fe, Mn, or Co have been calculated. The mixing between Fe and Mn in these materials is also examined. Our calculated values for these properties are in good agreement with recent experimental values. Further insight is gained from the electronic density of states of these materials, through which conclusions about the physical properties of the various phases are made.</p><p>The electronic and magnetic properties of the dilute magnetic semiconductor Mn-doped ZnO has been calculated. We have found that for an Mn concentration of 5.6%, the ferromagnetic configuration is energetically stable in comparison to the antiferromgnetic one. A half-metallic electronic structure is calculated by the GGA approximation, where Mn ions are in a divalent state leading to a total magnetic moment of 5 μB per Mn atom.</p>

Physics

Density Functional Theory

High Pressure

Phase Transitions

Elastic Properties

Lithium Batteries

Dilute Magnetic Semiconductors

Fysik

Physics

Fysik

Density Functional Theory in Computational Materials Science

Osorio Guillén, Jorge Mario

January 2004

The present thesis is concerned to the application of first-principles self-consistent total-energy calculations within the density functional theory on different topics in materials science. Crystallographic phase-transitions under high-pressure has been study for TiO2, FeI2, Fe3O4, Ti, the heavy alkali metals Cs and Rb, and C3N4. A new high-pressure polymorph of TiO2 has been discovered, this new polymorph has an orthorhombic OI (Pbca) crystal structure, which is predicted theoretically for the pressure range 50 to 100 GPa. Also, the crystal structures of Cs and Rb metals have been studied under high compressions. Our results confirm the recent high-pressure experimental observations of new complex crystal structures for the Cs-III and Rb-III phases. Thus, it is now certain that the famous isostructural phase transition in Cs is rather a new crystallographic phase transition. The elastic properties of the new superconductor MgB2 and Al-doped MgB2 have been investigated. Values of all independent elastic constants (c11, c12, c13, c33, and c55) as well as bulk moduli in the a and c directions (Ba and Bc respectively) are predicted. Our analysis suggests that the high anisotropy of the calculated elastic moduli is a strong indication that MgB2 should be rather brittle. Al doping decreases the elastic anisotropy of MgB2 in the a and c directions, but, it will not change the brittle behaviour of the material considerably. The three most relevant battery properties, namely average voltage, energy density and specific energy, as well as the electronic structure of the Li/LixMPO4 systems, where M is either Fe, Mn, or Co have been calculated. The mixing between Fe and Mn in these materials is also examined. Our calculated values for these properties are in good agreement with recent experimental values. Further insight is gained from the electronic density of states of these materials, through which conclusions about the physical properties of the various phases are made. The electronic and magnetic properties of the dilute magnetic semiconductor Mn-doped ZnO has been calculated. We have found that for an Mn concentration of 5.6%, the ferromagnetic configuration is energetically stable in comparison to the antiferromgnetic one. A half-metallic electronic structure is calculated by the GGA approximation, where Mn ions are in a divalent state leading to a total magnetic moment of 5 μB per Mn atom.

Physics

Density Functional Theory

High Pressure

Phase Transitions

Elastic Properties

Lithium Batteries

Dilute Magnetic Semiconductors

Fysik

Physics

Fysik

Análise petrofísica e petrográfica de padrões internacionais de arenitos e carbonatos.

ALMEIDA, Leyllanne Renalle Batista de.

25 July 2018

Submitted by Marcos Wanderley (marcos.wanderley@ufcg.edu.br) on 2018-07-25T22:10:41Z No. of bitstreams: 1 LEYLLANNE RENALLE BATISTA DE ALMEIDA - DISSERTAÇÃO(PPGEPM) 2017.pdf: 12325381 bytes, checksum: fce49fc6ad696f06078e766798c43c30 (MD5) / Made available in DSpace on 2018-07-25T22:10:41Z (GMT). No. of bitstreams: 1 LEYLLANNE RENALLE BATISTA DE ALMEIDA - DISSERTAÇÃO(PPGEPM) 2017.pdf: 12325381 bytes, checksum: fce49fc6ad696f06078e766798c43c30 (MD5) / A ampla utilização do método sísmico de prospecção na indústria de petróleo para gerar imagens das estruturas geológicas que encontram-se em subsuperfície e para o monitoramento dos reservatórios de petróleo torna essencial o conhecimento das propriedades petrofísicas e dos fatores que as afetam. Neste contexto, esta pesquisa tem como objetivo realizar o estudo petrofísico e petrográfico de trinta amostras de rochas sedimentares (arenitos e calcários), provenientes de formações estadunidenses, consideradas padrões na indústria. Foram realizados ensaios de caracterização petrofísica convencional, por métodos laboratoriais, empíricos - através dos modelos de substituição de fluidos - e simulações por modelos computacionais, utilizando os softwares Avizo Fire 8.1 e COMSOL Multiphysics 5.1, bem como a análise composicional a partir da difratometria de raios X e da descrição de lâminas delgadas em microscópio ótico. Os ensaios petrofísicos foram realizados em diferentes condições de pressão e saturação. As propriedades petrofísicas foram influenciadas por diversos parâmetros, que se diferenciam de acordo com o tipo litológico da rocha. A saturação das rochas não atingiu 90%, sendo para as rochas de matriz dolomítica muito inferior quando saturadas com óleo, possivelmente devido às mesmas serem molháveis a água. A saturação fluida influencia definitivamente nas propriedades elásticas das rochas em ambos os métodos estudados. Quando saturados com óleo, a maioria dos plugues apresentaram velocidades compressionais maiores em comparação às outras condições de saturação (seca ou saturada com água). Os modelos de Gassmann e Brown & Korringa mostraram-se mais representativos para as ondas compressionais, sendo em alguns casos eficientes também para as cisalhantes. O modelo de Biot mostrou-se mais eficiente para as ondas cisalhantes, principalmente nos arenitos. O método computacional mostrou-se eficaz visto que a velocidade compressional, pelo menos para um dos pontos receptores escohidos, se aproxima ou coincide com o valor medido laboratorialmente. Os resultados obtidos mostram que o conjunto de amostras estudado apresenta um bom potencial para reservatório. A composição mineralógica por DRX apresentou um bom ajuste com a densidade de grãos medidas convencionalmente. / The wide use of seismic prospecting method in the oil industry to generate images of geological structures that are found in subsurface and to the monitoring of petroleum reservoirs makes it essential to the knowledge of the petrophysical properties and the factors that affect them. In this context, this research aims to carry out the petrophysical and petrographical study of 30 samples of sedimentary rocks (sandstones and limestones) from American formations, considered standards in the industry. Petrophysical characterization tests were carried out by conventional laboratory methods, empirical-through fluid-replacement models and simulations by computer models, using the software Avizo Fire 8.1 and COMSOL Multiphysics 5.1, as well as the compositional analysis from the x-ray diffractometry and thin sections description in optical microscope. The petrophysical tests were performed under different conditions of pressure and fluid saturation. The petrophysical properties were influenced by several parameters, which differ according to the lithological rock type. The saturation of rocks not reached 90%, being much lower for dolomitic matrix rocks when saturated with oil, possibly due to their water wettability. Fluid saturation influences definitely in elastic properties of rocks in both methods studied. When saturated with oil most of the samples show higher compressional velocities as compared to other conditions of saturation (dry or saturated with water). The models of Gassmann and Brown & Korringa were more representative for the compressionais waves, being efficient in some cases also for the shear ones. Biot model proved to be more efficient for shear waves, especially in sandstones. The computational method proved effective as the compressional velocity, at least for one of the receivers, approaches or matches the value measured in the laboratory. The results obtained show that the set of samples studied presents good potential for reservoir. The mineralogical composition by DRX presented a good fit with the grain density measured conventionally.

Petrologia

Geoquímica

Prospecção mineral

Indústria de petróleo

Propriedades petrofísicas

Propriedades elásticas

Substituição de fluídos

Prospecting

Elastic Properties

Micro CT