Global ETD Search

51	PI-equivalências em álgebras matriciais. / PI-equivalences in matrix algebras. MACÊDO, David Levi da Silva. 10 August 2018 (has links) Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-08-10T17:30:02Z No. of bitstreams: 1 DAVID LEVI DA SILVA MACÊDO - DISSERTAÇÃO PPGMAT 2015..pdf: 982236 bytes, checksum: eeb47d97976467c33db1c843ee7e5f90 (MD5) / Made available in DSpace on 2018-08-10T17:30:02Z (GMT). No. of bitstreams: 1 DAVID LEVI DA SILVA MACÊDO - DISSERTAÇÃO PPGMAT 2015..pdf: 982236 bytes, checksum: eeb47d97976467c33db1c843ee7e5f90 (MD5) Previous issue date: 2015-08 / Capes / Para ler o resumo deste trabalho recomendamos o download do arquivo, uma vez que o mesmo possui fórmulas e caracteres matemáticos que não foram possíveis trascreve-los aqui. / To read the summary of this work we recommend downloading the file, since it has formulas and mathematical characters that were not possible to transcribe them here. Matemática. Álgebras matriciais PI-equivalências PI-Álgebras Identidades graduadas Álgebras graduadas Graded algebras Graded identities PI-Equivalence
52	Identidades polinomiais Zn-graduadas da álgebra Mn(F) Riva, Evandro 22 February 2016 (has links) Submitted by Aelson Maciera (aelsoncm@terra.com.br) on 2017-04-25T19:04:21Z No. of bitstreams: 1 DissER.pdf: 752664 bytes, checksum: 521aece49e66912a8051885516ab0cd7 (MD5) / Approved for entry into archive by Ronildo Prado (ronisp@ufscar.br) on 2017-05-02T12:46:36Z (GMT) No. of bitstreams: 1 DissER.pdf: 752664 bytes, checksum: 521aece49e66912a8051885516ab0cd7 (MD5) / Approved for entry into archive by Ronildo Prado (ronisp@ufscar.br) on 2017-05-02T12:46:43Z (GMT) No. of bitstreams: 1 DissER.pdf: 752664 bytes, checksum: 521aece49e66912a8051885516ab0cd7 (MD5) / Made available in DSpace on 2017-05-02T12:50:18Z (GMT). No. of bitstreams: 1 DissER.pdf: 752664 bytes, checksum: 521aece49e66912a8051885516ab0cd7 (MD5) Previous issue date: 2016-02-22 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / In this works we will study G-graded algebras and G-graded polynomial identities, where G is an additive group. For main result we will describe a finite basis for Zn-graded polynomial identities of the matrix algebra of order n x n, with entries in a field F, This study will be divided into two stages: when the field F has characteristic zero and when the field F is infinite. These results were described by Vasilovsky [18] in 1999 and Azevedo [2] in 2006. / Nesta dissertação estudaremos álgebras G-graduadas e identidades polinomiais G-graduadas, onde G é um grupo aditivo. Como resultado principal descreveremos uma base finita para as identidades polinomiais Zn-graduadas da álgebra das matrizes n x n, com entradas em um corpo F, Este estudo será subdividido em duas etapas: quando o corpo F for de característica zero e quando o corpo F for infinito. Estes resultados foram descritos por Vasilovsky [18] em 1999 e por Azevedo [2] em 2006 Identidades polinominais G-graduação Identidades polinominais G-graduadas Polynominal identities G-graded G-graded polynominal identities CIENCIAS EXATAS E DA TERRA::MATEMATICA
53	Method to Discretize Continuous Gradient Structures and Calculate Thermal Residual Stresses within Layered Functionally Graded Ceramics Neale, Ryan E 01 January 2019 (has links) Functionally graded materials (FGMs) are an advanced class of material which seeks to leverage the strengths of one material to mitigate the weaknesses of another. This allows for operation in extreme environments or conditions where materials properties must change at various locations within a structure. Fabrication of this advanced class of material is limited due to geometric, economic, and material constraints inherent in the various methods. For this reason, a model was developed to discretize continuous gradient curves to allow for the use of a step-wise approximations to such gradients. These alternative step-wise gradients would allow for the use of numerous manufacturing techniques which have improved composition control, cost of processing, cost of equipment, and equipment availability. One such technique, tape casting, was explored due to its robustness and ability to create layered ceramics. Since ceramics are inherently brittle materials, they serve to be strengthened by the thermal residual stresses that form in the creation of these step-wise graded composites. With models to calculate these residual stresses and determine step-wise approximations of various compositional gradients, the process of designing these layered ceramics can be significantly improved. Materials Science Functionally Graded Material Functionally Graded Ceramic Thermal Residual Stresses Ceramic Composites Layered Composites Mechanical Engineering
54	The structure of epsilon-strongly graded rings with applications to Leavitt path algebras and Cuntz-Pimsner rings Lännström, Daniel January 2019 (has links) The research field of graded ring theory is a rich area of mathematics with many connections to e.g. the field of operator algebras. In the last 15 years, algebraists and operator algebraists have defined algebraic analogues of important operator algebras. Some of those analogues are rings that come equipped with a group grading. We want to reach a better understanding of the graded structure of those analogue rings. Among group graded rings, the strongly graded rings stand out as being especially well-behaved. The development of the general theory of strongly graded rings was initiated by Dade in the 1980s and since then numerous structural results have been established for strongly graded rings. In this thesis, we study the class of epsilon-strongly graded rings which was recently introduced by Nystedt, Öinert and Pinedo. This class is a natural generalization of the well-studied class of unital strongly graded rings. Our aim is to lay the foundation for a general theory of epsilon-strongly graded rings generalizing the theory of strongly graded rings. This thesis is based on three articles. The first two articles mainly concern structural properties of epsilon-strongly graded rings. In the first article, we investigate a functorial construction called the induced quotient group grading. In the second article, using results from the first article, we generalize the Hilbert Basis Theorem for strongly graded rings to epsilon-strongly graded rings and apply it to Leavitt path algebras. In the third article, we study the graded structure of algebraic Cuntz-Pimsner rings. In particular, we obtain a partial classification of unital strongly, epsilon-strongly and nearly epsilon-strongly graded Cuntz-Pimsner rings up to graded isomorphism. group graded ring epsilon-strongly graded ring chain conditions Leavitt path algebra partial crossed product Cuntz-Pimsner rings Algebra and Logic Algebra och logik
55	Cristaux photoniques à gradient : dispositifs et applications / Graded Photonic Crystals : devices and applications Gaufillet, Fabian 12 November 2014 (has links) Les matériaux artificiellement structurés que sont les cristaux photoniques sont couramment utilisés pour leurs propriétés dispersives. Leur constante diélectrique varie périodiquement à l'échelle de la longueur d'onde selon deux ou trois directions avec un contraste d'indice suffisamment élevé. La relation de dispersion ω = ω(k) qui résulte de cette variation périodique a la forme d'une structure de bande à l'intérieur de laquelle il existe des bandes interdites photoniques où la propagation du champ électromagnétique est interdite. En dehors de ces bandes, i.e. dans les bandes photoniques, se trouvent les propriétés de dispersion des cristaux photoniques.Le but de ce travail de thèse est de concevoir, de fabriquer et de caractériser des dispositifs à cristal photonique à gradient. Ces dispositifs ont été conçus de façon à s'appliquer dans les domaines allant des micro-ondes à l'optique. Nous avons conçu des dispositifs à partir de cristaux photoniques dont les propriétés dispersives les rendent analogues à des milieux linéaires, homogènes et isotropes (LHI). À la maille élémentaire de ces cristaux photoniques LHI, nous avons appliqué un gradient pour réaliser des lentilles à gradient 1D. Des résultats importants concernant la conception, la fabrication et la caractérisation expérimentale d'une lentille plate à gradient d'indice fonctionnant dans la bande X des micro-ondes sont reportés. Celle lentille focalise une onde plane incidente et collimate l'onde émise par une source ponctuelle situés dans son plan focal. Si cette lentille constitue en soi un démonstrateur et valide la démarche mise en œuvre pour la concevoir, ses applications potentielles concernent particulièrement les antennes. Nous réalisons également plusieurs lentilles à gradient 2D dont des lentilles de Lüneburg et Half Maxwell Fisheye; leurs applications aux antennes sont importantes. Nous nous intéressons aussi à la réalisation de lentilles optiques à gradient d'indice dites « SELFOC® ». Dans le but de confirmer les propriétés dispersives remarquables qui ont été mises en évidence, nous avons poursuivi dans ce sens en revisitant une expérience classique qui met en évidence l'existence des ondes évanescentes : celle du « double prisme à angle droit ». Nous mettons également en évidence le phénomène de « réflexion totale frustrée » ainsi que le décalage, découvert par Goos et Hänchen, que subit l'onde réfléchie sur le dioptre. Ce sont ces deux points — réflexion totale frustrée et effet Goos-Hänchen — que nous vérifions dans le cas de cristaux photoniques LHI. / Artificially structured materials that are photonic crystals are commonly used for their dispersive properties. Their dielectric constant varies periodically across the wavelength in two or three directions with a sufficiently high index contrast. The resulting dispersion relation ω = ω(k) of the periodic variation has the form of a band structure within which there are photonic bandgaps in which the propagation of the electromagnetic field is prohibited. Outside of these bands, i.e. in the photonic band, there are the dispersion properties of the photonic crystals.The aim of this thesis is to design, fabricate and characterize graded photonic crystal devices. These devices were designed to be applied in areas ranging from microwaves to optics. We designed devices from photonic crystals with dispersive properties which make them similar to linear, homogeneous and isotropic media (LHI). In the unit cell of the LHI photonic crystal, we applied a gradient to achieve 1D graded lenses. Important results regarding the design, manufacturing and experimental characterization of a flat lens GRIN operating in X-band microwaves are deferred. This lens focuses an incident plane wave and collimates the wave emitted by a point source located in its focal plane. If this lens is itself a demonstrator and validates the approach implemented for the design, its potential applications particularly concern antennas. We also carry several 2D graded lenses including Lüneburg and Half Maxwell Fisheye lenses; their applications to the antennas are important. We are also interested in making optical graded index lenses called "SELFOC®".In order to confirm the remarkable dispersive properties that have been identified, we continued in that direction by revisiting a classic experiment that highlights the existence of evanescent waves: the "double right angle prism". We also highlight the phenomenon of "frustrated total internal reflection" and the shift discovered by Goos and Hänchen suffered by the reflected wave on the interface. It's these two points – frustrated total internal reflection and Goos-Hänchen effect - that we check in the case of LHI photonic crystals. Cristaux photoniques à gradient Gradient d'indice Lentille FDTD Réflexion totale frustrée Graded Photonic Crystals Graded index Lens FDTD Frustrated total internal reflection
56	Spontaneous Crack Propagation In Functionally Graded Materials Haldar, Sandip 12 1900 (has links) Functionally graded materials (FGMs) are composites that have continuously varying material properties, which eliminate undesirable stress concentrations that might otherwise occur in layered composites. The concept of inhomogeneously varying properties is observed in nature; examples include bones, teeth, shells and timber. Modern engineering applications of FGMs include thermal barrier coatings, wear-resistant coatings, biomedical implants and MEMS devices. Syntactic foams, particle ﬁlled nano-composites are examples of inhomogeneous materials of current interest. Analyses and experiments available in the literature have focused on characterizing the inhomogeneous material modulus and density variations. Common techniques employed are nano-indentation and wave propagation studies. There are a few fracture mechanics analyses and experiments available in the literature; most of which are devoted to measuring the fracture toughness of graded materials. A few fracture analyses of graded materials are devoted to deriving asymptotic stress, strain and displacement ﬁelds around stationary and steadily growing cracks in inhomogeneous materials. Only a few studies exist that deal with understanding the effect of material property inhomogeneity on the spontaneous crack propagation. In the present thesis the effect of material property inhomogeneity on the dynamic fracture mechanics of cracks in FGMs is described. Numerical analysis of the elastodynamic initial boundary value problem is performed using a spectral scheme. Spectral scheme is a special numerical technique developed to simulate spontaneous, planar crack propagation in a variety of materials. The method is numerically efficient as it can be implemented on parallel machines with ease. The numerical scheme is versatile and can handle any state-and rate-dependent traction-separation laws (cohesive zone models) or frictional laws. Spectral scheme has successfully been used in simulating intersonic crack propagation, earthquake slip dynamics and also direct silicon wafer bonding process used in realizing 3D MEMS structures. In the present work, the spectral formulation accounts for the inhomogeneous variation in the material wave speeds in the medium. The effect of inhomogeneity on spontaneous crack propagation due to in-plane mixed-mode loading is also addressed here. A parametric study has been performed by varying the inhomogeneity length scales independently in the top and bottom half-spaces. The effect of inhomogeneity in shear wave speed on the dynamic stress intensity factors (SIFs) of a crack propagating in a quasi-steady-state along the interface between the two functionally graded half-spaces is studied. A symmetric hardening FGM offers the maximum fracture resistance, while the fracture resistance is minimum for a symmetric softening FGM. Our simulation shows that increasing the inhomogeneity in the wave speed leads to eliminate the overshoot in the dynamic stress intensity factor. The magnitude of the steady-state (long-time) SIF increases indicating an increase in the fracture resistance. The effect of the inhomogeneous wave speed on the mode-3 crack propagation characteristics is demonstrated by taking snapshots of the crack opening at a time interval. The magnitude of the crack sliding displacement is found to increase with increase in the inhomogeneity. The effect of the material property inhomogeneity on the mode-1 crack propagation is simulated to track the crack opening displacements. The inhomogeneity is assumed to be symmetric about the weak-plane. Our spectral scheme developed here for functionally graded material with exponential variation in the material properties is capable of simulating independent bimaterial combinations. When the graded material becomes progressively stiﬀer and denser (hardening), the crack opening displacement in reduced, indicating an increase in the fracture resistance. On the other hand, for the softening FGMs the crack opening displacement increases indicating a reduction in fracture toughness. It is noted that the cohesive fracture resistance on the weak-plane remains same in all the FGMs. Crack Propagation (Material Science) Crack Resistance (Materials) Materials - Properties Fracture Mechanics Functionally Graded Materials (FGMs) Materials - Cracks Inhomogeneous Materials Functionally Graded Bar Materials Science
57	Identidades polinomiais graduadas para álgebras de matrizes. / Graded polynomial identities for matrix algebras. ALVES, Sirlene Trajano. 05 August 2018 (has links) Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-08-05T13:16:57Z No. of bitstreams: 1 SIRLENE TRAJANO ALVES - DISSERTAÇÃO PPGMAT 2012..pdf: 543242 bytes, checksum: 8ace2f30dc5a59df9bafcf55b8e7147b (MD5) / Made available in DSpace on 2018-08-05T13:16:57Z (GMT). No. of bitstreams: 1 SIRLENE TRAJANO ALVES - DISSERTAÇÃO PPGMAT 2012..pdf: 543242 bytes, checksum: 8ace2f30dc5a59df9bafcf55b8e7147b (MD5) Previous issue date: 2012-03 / O tema central desta dissertação é a descrição das identidades polinomiais graduadas da álgebra Mn(K). Métodos diferentes são empregados conforme a característica do corpo: se Char K = 0, à descrição das identidades graduadas se reduz a descrição das identidades multilineares, o que foi feito no Capítulo 2, onde são descritas as identidade de Mn(K) com uma classe ampla de graduações elementares; se Char K =p>0 e K é in nito, a descrição das identidades graduadas é reduzida à descrição das identidades multi-homogêneas, que torna o problema mais difícil, e técnicas como a construção de álgebras genéricas são necessárias. No Capítulo 3 são descritas as identidades Z e Zn-graduadas de Mn(K) para um corpo in nito K. / The main theme of this dissertation is the description of the graded polynomial identities of the algebra Mn(K). Diferent methods are used depending on the characteristic of the field: if Char K = 0, the description of the graded identities is reduced to the description of the multilinear graded identities, what was done in Chapter 2, where the identities of Mn(K) are described for a wide class of elementary gradings; if Char K =p>0 and K is in nite, the description of the graded identities is reduced to the study of the multi-homogeneous identities, wich makes it harder, and techniques such as the construction of generic algebras are necessary. In Chapter 3 the Z and Zn-graded identities of Mn(K) are described for an infinite field K Matemática. Identidades polinomiais Álgebra de matrizes Álgebras matriciais Polinômios multi-homogêneos Polinômios multilineares Álgebras graduadas Polynomial identities Graded algebras Matrix algebras G-Graded identities
58	Powder Forging of in Axial and Radial Direction Graded Components of TRIP-Matrix-Composite Kirschner, Markus, Guk, Sergey, Kawalla, Rudolf, Prahl, Ulrich 02 July 2024 (has links) Powder metallurgy is one way of producing complex, graded structures that could allowmaterial systems to be produced with properties tailored to individual applications. However,powder metallurgy requires that the semi-finished products are very similar to the final component.It is much more economical to produce simple semi-finished products and then combine them bypowder forging and simultaneous compaction than forming complex components with the desiredgraded structure. However, it is absolutely necessary that the graded structure of the semi-finishedproducts is maintained during the forming process. In this study, pre-sintered cylindrical semi-finished products, consisting of axially graded as well as radially graded components, were producedby powder forging at 1100◦C. The microstructures, densities and mechanical properties of the finalcomponents were investigated to verify the effectiveness of the process route. It was observed thatthe components formed solid structures after compaction, in which the reinforcing ZrO2particleswere fully integrated into the transformation-induced plasticity steel matrix. Publikationsfonds info:eu-repo/classification/ddc/620 ddc:620 Pulverschmieden Metallmatrix-Verbundwerkstoff TRIP-Stahl Umformen
59	A Critical Compilation of Graded Band Material at High School Level Sonnenburg, Eldon M. (Eldon Malcome) 08 1900 (has links) The instrumental composition of the band is an outgrowth of utilitarian improvisation. The well-developed percussion section, and the voluminous reed and brass sections are a carry-over from the Military, where the emphasis was on functional beating of time for marching. Mobility and volume sufficient for the accompaniment of troop movements were also necessary. Until recent times, the band existed only for functional matters, never as an independent and self-justifying medium with its purpose being a musical organization. Through the growth of military, professional, and school bands, the band of today has developed into a musical organization in its own right, which can perform almost anything in the technical range of composition. high school bands National School Band Association music libraries
60	Origami inspired design of thin walled tubular structures for impact loading Shantanu Ramesh Shinde (7039910) 15 August 2019 (has links) <div>Thin walled structures find wide applications in automotive industry as energy absorption devices. A great deal of research has been conducted to design thin walled structures, where the main objective is to reduce peak crushing forces and increase energy absorption capacity. With the advancement of computers and mathematics, it has been possible to develop 2D patterns which when folded turn into complex 3D structures. This technology can be used to develop patterns for getting structures with desired properties. </div><div>In this study, square origami tubes with folding pattern (Yoshimura pattern) is designed and studied extensively using numerical analysis. An accurate Finite Element Model (FEM) is developed to conduct the numerical analysis. A parametric study was conducted to study the influence of geometric parameters on the mechanical properties like peak crushing force, mean crushing force, load uniformity and maximum intrusion, when subjected to dynamic loading. </div><div>The results from this analysis are studied and various conclusions are drawn. It is found that, when the tube is folded with the pattern having specific dimension, the performance is enhanced significantly, with predictable and stable collapse. It is also found that the stiffness of the module varies with geometrical parameters. With a proper study it is possible to develop origami structures with functionally graded stiffness, the performance of which can be tuned as per requirement, hence, showing promising capabilities as an energy absorption device where progressive collapse from near to end impact end is desired.</div><div><br></div> Mechanical Engineering Non-linear Finite Element Analysis Crashworthiness Origami Thin-walled Tubular Structures Graded Stiffness

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