Global ETD Search

71	Design, Analysis and Fabrication of Complex Structures using Voxel-based modeling for Additive Manufacturing Tedia, Saish 20 November 2017 (has links) A key advantage of Additive Manufacturing (AM) is the opportunity to design and fabricate complex structures that cannot be made via traditional means. However, this potential is significantly constrained by the use of a facet-based geometry representation (e.g., the STL and the AMF file formats); which do not contain any volumetric information and often, designing/slicing/printing complex geometries exceeds the computational power available to the designer and the AM system itself. To enable efficient design and fabrication of complex/multi-material complex structures, several algorithms are presented that represent and process solid models as a set of voxels (three-dimensional pixels). Through this, one is able to efficiently realize parts featuring complex geometries and functionally graded materials. This thesis specifically aims to explore applications in three distinct fields namely, (i) Design for AM, (ii) Design for Manufacturing (DFM) education, and (iii) Reverse engineering from imaging data wherein voxel-based representations have proven to be superior to the traditional AM digital workflow. The advantages demonstrated in this study cannot be easily achieved using traditional AM workflows, and hence this work emphasizes the need for development of new voxel based frameworks and systems to fully utilize the capabilities of AM. / MS Additive manufacturing Voxel Manufacturability Engineering Design Education CT Scan Reverse Engineering Dithering Functionally graded Multi-Material
72	Free Vibration of Bi-directional Functionally Graded Material Circular Beams using Shear Deformation Theory employing Logarithmic Function of Radius Fariborz, Jamshid 21 September 2018 (has links) Curved beams such as arches find ubiquitous applications in civil, mechanical and aerospace engineering, e.g., stiffened floors, fuselage, railway compartments, and wind turbine blades. The analysis of free vibrations of curved structures plays a critical role in their design to avoid transient loads with dominant frequencies close to their natural frequencies. One way to increase their areas of applications and possibly make them lighter without sacrificing strength is to make them of Functionally Graded Materials (FGMs) that are composites with continuously varying material properties in one or more directions. In this thesis, we study free vibrations of FGM circular beams by using a logarithmic shear deformation theory that incorporates through-the-thickness logarithmic variation of the circumferential displacement, and does not require a shear correction factor. The radial displacement of a point is assumed to depend only upon its angular position. Thus the beam theory can be regarded as a generalization of the Timoshenko beam theory. Equations governing transient deformations of the beam are derived by using Hamilton's principle. Assuming a time harmonic variation of the displacements, and by utilizing the generalized differential quadrature method (GDQM) the free vibration problem is reduced to solving an algebraic eigenvalue problem whose solution provides frequencies and the corresponding mode shapes. Results are presented for different spatial variations of the material properties, boundary conditions, and the aspect ratio. It is found that the radial and the circumferential gradation of material properties maintains their natural frequency within that of the homogeneous beam comprised of a constituent of the FGM beam. Furthermore, keeping every other variable fixed, the change in the beam opening angle results in very close frequencies of the first two modes of vibration, a phenomenon usually called mode transition. / Master of Science / Curved and straight beams of various cross-sections are one of the simplest and most fundamental structural elements that have been extensively studied because of their ubiquitous applications in civil, mechanical, biomedical and aerospace engineering. Many attempts have been made to enhance their material properties and designs for applications in harsh environments and reduce weight. One way of accomplishing this is to combine layerwise two or more distinct materials and take advantage of their directional properties. It results in a lightweight structure having overall specific strength superior to that of its constituents. Another possibility is to have volume fractions of two or more constituents gradually vary throughout the structure for enhancing its performance under anticipated applications. Functionally graded materials (FGMs) are a class of composites whose properties gradually vary along one or more space directions. In this thesis, we have numerically studied free vibrations of FGM circular beams to enhance their application domain and possibly use them for energy harvesting. Free Vibration Circular Beams Logarithmic Shear Deformation Theory
73	Finite Coupled Torsion and Inflation of Functionally Graded Mooney-Rivlin Cylinders with and without Residual Stresses Fairclough, Kesna Asharnie 08 May 2024 (has links) Functionally graded structures have material properties that continuously vary in one or more directions. Examples include human teeth, seashells, bamboo stems and human organs, where the varying volume fraction of fibers and their orientations optimize functionality. Deformations of such structures typically involve bending, stretching, and shearing. An everyday example of shearing deformation is the twisting of wet fabrics to extract water. In this study, we analytically examine the large deformations of functionally graded Mooney-Rivlin circular cylinders, focusing on how radial grading of material moduli can be beneficially utilized. We investigate the finite deformations caused by pressures applied to the bounding surfaces and axial loads or twisting moments on the end faces. We also simulate residual stresses in a hollow cylinder either by inverting it inside out or by closing a longitudinal wedge opening parallel to the cylinder axis through axisymmetric deformation before other loads are applied. It is observed that the maximum shear stress in an initially stress-free Mooney-Rivlin cylinder can occur at an interior point. In the absence of axial forces on the end faces, the cylinder elongates when twisted, with the degree of elongation depending on the grading of the material moduli. These findings should aid numerical analysts in verifying their algorithms for simulating large deformations of rubber-like materials modeled by the Mooney-Rivlin relation. / Master of Science / Functionally graded materials (FGMs) are composites whose properties vary in one or more directions to exploit the functionality of the individual components. An example would be a sheet of material that is fully metallic on one side and fully ceramic on the other, with properties changing gradually through the thickness. The Mooney-Rivlin model is used to capture the stress-strain response of rubber-like materials. Therefore, functionally graded Mooney-Rivlin cylinders are rubber-like composite cylinders whose properties change throughout their thickness. Functionally graded cylinders have a wide array of applications, including in pressure vessels, vibration damping systems and tires. Therefore, having a thorough understanding of the stresses induced in these cylinders when subjected to loads is essential for safe and reliable designs. This research aims to investigate the effects of material inhomogeneity on the stresses induced in functionally graded cylinders subjected to torsion, radial expansion, eversion, and various combinations of these. Furthermore, realizing that stresses induced during the fabrication process cannot be easily quantified, we study a problem in which these induced stresses can be determined and analyze their effect on subsequent deformations of the cylinder when subjected to torsion and radial expansion. To achieve this aim, we use a member of Ericksen's third family of universal deformations, which mathematically describes torsion, inflation, and eversion, along with the Mooney-Rivlin model to determine the stress state resulting from deformation. The results show that for cylinders of the same geometry in the stress-free undeformed state subjected to identical surface tractions, material inhomogeneities greatly influence the stresses in the cylinder. It was also found that the magnitude of the normal and shear stresses, axial stretch, and the geometry of the cylinder after deformation depend on the type of deformation and functional grading. Additionally, the results indicate that the normal stresses induced in an initially stressed cylinder are much greater than those in a cylinder that is initially stress-free when subjected to the same boundary conditions. Functionally Graded Torsion Inflation Eversion Surface Tractions Mooney-Rivlin Residual Stress
74	The adoption of laser melting technology for the manufacture of functionally graded cobalt chrome alloy femoral stems Hazlehurst, Kevin Brian January 2014 (has links) Total Hip Arthroplasty (THA) is an orthopaedic procedure that is performed to reduce pain and restore the functionality of hip joints that are affected by degenerative diseases. The outcomes of THA are generally good. However, the stress shielding of the periprosthetic femur is a factor that can contribute towards the premature loosening of the femoral stem. In order to improve the stress shielding characteristics of metallic femoral stems, stiffness configurations that offer more flexibility should be considered. This research has investigated the potential of more flexible and lightweight cobalt chromium molybdenum (CoCrMo) femoral stems that can be manufactured using Selective Laser Melting (SLM). Square pore cellular structures with compressive properties that are similar to human bone have been presented and incorporated into femoral stems by utilising fully porous and functionally graded designs. A three dimensional finite element model has been developed to investigate and compare the load transfer to the periprosthetic femur when implanted with femoral stems offering different stiffness configurations. It was shown that the load transfer was improved when the properties of the square pore cellular structures were incorporated into the femoral stem designs. Factors affecting the manufacturability and production of laser melted femoral stems have been investigated. A femoral stem design has been proposed for cemented or cementless fixation. Physical testing has shown that a functionally graded stem can be repeatedly manufactured using SLM, which was 48% lighter and 60% more flexible than a traditional CoCrMo prosthesis. The research presented in this thesis has provided an early indication of utilising SLM to manufacture lightweight CoCrMo femoral stems with levels of flexibility that have the potential to reduce stress shielding in the periprosthetic femur. 617.581
75	Controle da fissuração em compósitos com fibras orgânicas aplicando conceito de materiais com gradação funcional. / Control of cracking in fiber cement apply concepts of functionally graded materials. Giordano, Brunoro Leite 09 December 2011 (has links) O objetivo deste trabalho é controlar a incidência de fissuras em fibrocimentos aplicando o conceito de materiais com gradação funcional através da protensão química gerada pela aplicação de silicato de sódio alcalino entre as camadas dos fibrocimentos. Atualmente é bastante comum os fibrocimentos apresentarem fissuras ao longo das bordas devido aos gradientes de umidade gerados durante a estocagem das pilhas de telhas no pátio das indústrias. O potencial da protensão química foi avaliado através da porosidade total, da quantificação das fases hidratadas, da retração por secagem e do desempenho mecânico. A aplicação de silicato de sódio alcalino no ligante CPII F provocou retração por secagem 1,5 vezes maior que a referência aos 91 dias. O módulo de ruptura (MOR) não sofreu alteração, mas o limite de proporcionalidade da matriz (LOP) aumentou em torno de 95%. O módulo de elasticidade dinâmico foi 13 % maior. O aumento da retração por secagem e o ganho de desempenho mecânico apontam o potencial da protensão química para o controle da fissuração em fibrocimentos produzidos pelo processo Hatschek. / The objective of this work is controlling the incidence of cracks in fiber cement, using the concept of functionally graded materials through the chemical prestressing, generated by application of alkaline sodium silicate among fiber cement layers. Currently, its very common the fiber cements present cracks along the edges due to moisture gradients, caused during storage of piles of tiles in the courtyard of the industry. The chemical prestressing potential was evaluated through of the total porosity, the quantification of hydrate phases, the drying shrinkage and the mechanical performance. The application of alkaline sodium silicate in the cement CPII F caused drying shrinkage 1,5 times greater than the reference to 91 days. The modulus of rupture (MOR) didnt suffer change, but the proportional limit of matrix (LOP) increased by around 95%. The dynamic modulus of elasticity was 13% higher. The increase of drying shrinkage and the mechanical performance gain indicate the chemical prestressing potential to control the cracking in fiber cement produced by the process Hatschek. Chemical prestressing Cracks Drying shrinkage Fiber cement Fibrocimento Fissuração Functionally graded Gradação funcional Protensão química Retração por secagem
76	Properties of Composites Containing Spherical Inclusions Surrounded by an Inhomogeneous Interphase Region Lombardo, Nick, e56481@ems.rmit.edu.au January 2007 (has links) The properties of composite materials in which spherical inclusions are embedded in a matrix of some kind, have been studied for many decades and many analytical models have been developed which measure these properties. There has been a steady progression in the complexity of models over the years, providing greater insight into the nature of these materials and improving the accuracy in the measurement of their properties. Some of the properties with which this thesis is concerned are, the elastic, thermal and electrical properties of such composites. The size of the spherical inclusion which acts as the reinforcing phase, has a major effect on the overall properties of composite materials. Once an inclusion is embedded into a matrix, a third region of different properties between the inclusion and matrix is known to develop which is called the interphase. It is well known in the composite community that the smaller the inclusion is, the larger the interphase region which develops around it. Therefore, with the introduction of nanoparticles as the preferred reinforcing phase for some composites, the interphase has a major effect on its properties. It is the aim of this thesis to consider the role of the interphase on the properties of composites by modeling it as an inhomogeneous region. There is much scientific evidence to support the fact that the interphase has an inhomogeneous nature and many papers throughout the thesis are cited which highlight this. By modeling the inhomogeneous properties by arbitrary mathematical functions, results are obtained for the various properties in terms of these general functions. Some specific profiles for the inhomogeneous region are considered for each property in order to demonstrate and test the models against some established results. Particle-reinforced composites Interphase Bulk Modulus Shear Modulus Thermal Expansion Coefficient Micromechanics Dielectric Constant Inhomogeneous Functionally Graded.
77	Musikterapi med en gravt synskadad elev : Måste FMT-metoden anpassas? Möllenborg, Kerstin January 2009 (has links) <p>I detta examensarbete presenteras olika inriktningar av musikterapi och FMT-metoden (Funktionsinriktad musikterapi) belyses ingående. Här beskrivs arbetssätt och arbetsmaterialet nämns. Ett historiskt perspektiv ges både på människor med funktionshinder genom tiderna och på musikterapins utveckling i världen och i Sverige. Olika musikterapidiscipliner presenteras liksom befintliga utbildningsmöjligheter.</p><p> </p><p>Två elever/adepter presenteras och terapin med dessa beskrivs detaljerat. Arbetet tar upp frågan om FMT-metoden måste ändras eller justeras för att kunna användas i terapin med en synskadad person? Kontentan är att det inte behövs några förändringar av metoden för att fungera för adepter med synskada.</p> / <p>This paper presents, in two case studies, the use of Functionally Oriented Music Therapy (FMT- method) with visually impaired students. The therapy with the students is described in detail, along with FMT methodology. The conclusion is that the FMT method does not need any modification when used with visually impaired students.</p><p> </p><p>The field of music therapy in general and the various disciplines are described, along with its history and development in Sweden and the world, The situation of disabled persons is also presented in an historical framework.</p> Functionally Oriented Music Therapy visually impaired students cerebral palasy history of music therapy FMT-metoden grav synskada cerebral pares musikterapihistoria
78	Musikterapi med en gravt synskadad elev : Måste FMT-metoden anpassas? Möllenborg, Kerstin January 2009 (has links) I detta examensarbete presenteras olika inriktningar av musikterapi och FMT-metoden (Funktionsinriktad musikterapi) belyses ingående. Här beskrivs arbetssätt och arbetsmaterialet nämns. Ett historiskt perspektiv ges både på människor med funktionshinder genom tiderna och på musikterapins utveckling i världen och i Sverige. Olika musikterapidiscipliner presenteras liksom befintliga utbildningsmöjligheter. Två elever/adepter presenteras och terapin med dessa beskrivs detaljerat. Arbetet tar upp frågan om FMT-metoden måste ändras eller justeras för att kunna användas i terapin med en synskadad person? Kontentan är att det inte behövs några förändringar av metoden för att fungera för adepter med synskada. / This paper presents, in two case studies, the use of Functionally Oriented Music Therapy (FMT- method) with visually impaired students. The therapy with the students is described in detail, along with FMT methodology. The conclusion is that the FMT method does not need any modification when used with visually impaired students. The field of music therapy in general and the various disciplines are described, along with its history and development in Sweden and the world, The situation of disabled persons is also presented in an historical framework. Functionally Oriented Music Therapy visually impaired students cerebral palasy history of music therapy FMT-metoden grav synskada cerebral pares musikterapihistoria
79	Thermal Stress Problem For An Fgm Strip Containing Periodic Cracks Kose, Ayse 01 March 2013 (has links) (PDF) In this study the plane linear elastic problem of a functionally graded layer which contains periodic cracks is considered. The main objective of this study is to determine the thermal stress intensity factors for edge cracks. In order to find an analytic solution, Young&rsquo / s modulus and thermal conductivity are assumed to be varying exponentially across the thickness, whereas Poisson ratio and thermal diffusivity are taken as constant. First, one dimensional transient and steady state conduction problems are solved (heat flux being across the thickness) to determine the temperature distribution and the thermal stresses in a crack free layer. Then, the thermal stress distributions at the locations of the cracks are applied as crack surface tractions in the elasticity problem to find the stress intensity factors. By defining an appropriate auxiliary variable, elasticity problem is reduced to a singular integral equation, which is solved numerically. The influence of such parameters as the grading, crack length and crack period on the stress intensity factors is investigated. TJ Mechanical Engineering. 1-1570
80	Application of Functionally Graded Material for Reducing Electric Field on Electrode and Spacer Interface Okubo, Hitoshi, Takei, Masafumi, Hoshina, Yoshikazu, Hanai, Masahiro, Kato, Katsumi, Kurimoto, Muneaki 02 1900 (has links) No description available. Gas insulated switchgear (GIS) Centrifugal force Filler Epoxy resin Spacer Electric field Permittivity Functionally graded material (FGM)

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