Global ETD Search

111	Enhancing Interfacial Bonding of a Biodegradable Calcium Polyphosphate/Polyvinyl-urethane Carbonate Interpenetrating Phase Composite for Load Bearing Fracture Fixation Applications Guo, Yi 06 April 2010 (has links) This thesis describe methods to improve the interfacial stability of an interpenetrating phase composite (IPC) polyvinylurethanecarbonate), and to increase the hydrophobicity of the polymer phase. The current IPCs introduce covalent bonding between the phases via silanizing agents to enhance the interfacial stability. Incorporation of the silanizing agents was also intended to reduce the IPC’s sensitivity to interfacial hydration, thereby enhancing the IPC’s resistance to degradation during aging. Lysine diisocyanate was used to increase the hydrophobic character in the polyvinylurethanecarbonate resin. The polymer resins were infiltrated into porous CPP blocks with 25 volume% interconnected porosity and polymerized to produce the IPCs. After mechanical testing following a aging study it was found that the silanizing agents contributed to stability of the mechanical properties under aqueous conditions. It was concluded that the mechanical properties and stability were comparable to available biodegradable composites, as well as being biocompatible to a preosteoblast model cell line. Orthopaedic Interpenetrating Phase Composite Calcium Polyphosphate Polyvinylurethane Fracture Fixation Load Bearing Bones Biodegradable Composite Mechanical Testing silanizing agents silane 0541 0794
112	Enhancing Interfacial Bonding of a Biodegradable Calcium Polyphosphate/Polyvinyl-urethane Carbonate Interpenetrating Phase Composite for Load Bearing Fracture Fixation Applications Guo, Yi 06 April 2010 (has links) This thesis describe methods to improve the interfacial stability of an interpenetrating phase composite (IPC) polyvinylurethanecarbonate), and to increase the hydrophobicity of the polymer phase. The current IPCs introduce covalent bonding between the phases via silanizing agents to enhance the interfacial stability. Incorporation of the silanizing agents was also intended to reduce the IPC’s sensitivity to interfacial hydration, thereby enhancing the IPC’s resistance to degradation during aging. Lysine diisocyanate was used to increase the hydrophobic character in the polyvinylurethanecarbonate resin. The polymer resins were infiltrated into porous CPP blocks with 25 volume% interconnected porosity and polymerized to produce the IPCs. After mechanical testing following a aging study it was found that the silanizing agents contributed to stability of the mechanical properties under aqueous conditions. It was concluded that the mechanical properties and stability were comparable to available biodegradable composites, as well as being biocompatible to a preosteoblast model cell line. Orthopaedic Interpenetrating Phase Composite Calcium Polyphosphate Polyvinylurethane Fracture Fixation Load Bearing Bones Biodegradable Composite Mechanical Testing silanizing agents silane 0541 0794
113	Développement de nouveaux textiles biomimétiques pour des prothèses vasculaires / Development of new biomimetic textiles for new arterial prostheses Lemercier, Audrey 12 May 2015 (has links) L'objectif de cette thèse est de développer de nouveaux textiles biomimétiques pour réaliser des prothèses vasculaires au comportement mécanique proche de celui de l'aorte native, afin de limiter les problèmes post-opératoires observés actuellement. Afin d'établir le cahier des charges, un modèle de comportement de l'AA inspiré d'un modèle multicouches a été ajusté sur des essais biaxiaux de la littérature réalisés sur des échantillons d'AA excisés, pour trois groupes d'âge distincts. Ce modèle a ensuite été implémenté dans un code de calculs par éléments finis afin de simuler le comportement mécanique de l'aorte saine soumise à un ensemble de sollicitations mécaniques, tant à l'échelle du matériau (traction uni et biaxiale, flexion) qu'à celle de la structure (gonflement avec pré-élongation, flexion, compression diamétrale). Dans un second temps, des essais de caractérisation couplés à des mesures par imagerie ont été mis en œuvre sur des prothèses du commerce, avec les mêmes conditions limites et de chargement que les simulations numériques. Ces essais ont permis d'identifier les écarts de comportement mécanique entre les prothèses actuelles et l'aorte native. Afin de pallier à cela, la dernière partie de ce travail a été consacrée au développement de nouveaux textiles biomimétiques, i.e mimant le comportement mécanique de l'aorte native ainsi que ses principales caractéristiques histologiques (« ondulation » et « orientations de fibres privilégiées»), réalisables à l'échelle industrielle par technologie « tricot maille jetée ». Dans un premier temps, le comportement mécanique de plusieurs multifilaments en PET avec différents titres, nombres de filaments et différentes textures, a été étudié après plusieurs traitements (thermique…). Ceci a permis de sélectionner un fil en particulier pour la réalisation des textiles. Par la suite, une première optimisation des paramètres de fabrication (armure, densité de mailles, jauge) a été réalisée pas-à-pas à travers plusieurs campagnes de réalisations et de caractérisations de tricots plans en sollicitation uniaxiale et biaxiale. Enfin, des premiers essais de mise en forme tubulaire ont été réalisés à partir des textiles optimisés. Deux procédés de mise en forme ont été développés : tubes cousus / tubes tramés. La production de « tubes tramés » continus est une technologie innovante à notre connaissance, et prometteuse. Le comportement mécanique des tubes réalisés a été caractérisé en gonflement pour une première évaluation. Plus spécifiquement, l'effet des procédés appliqués sur les textiles médicaux (lavage, traitement thermique, enduction) a été testé sur des échantillons de tube tramé et de textiles plans. Ces premiers essais ont montré qu'en pilotant les paramètres de ces différents traitements et plus particulièrement ceux du traitement thermique, il est possible de moduler le comportement mécanique des tricots afin qu'il s'approche au mieux de celui de l'AA. / This thesis aims at developing new biomimetic textiles to design vascular prostheses with a mechanical behavior close to the one of the host aorta, in order to reduce current post-operative problems. To define the ideal target properties, a AA mechanical model was chosen, based on a multi-layered model from the literature. The model parameters were adjusted on biaxial tensile data reported in the literature, performed on excised AA samples for three different age groups. Then, this model was implemented in a finite element code in order to simulate the mechanical behavior of the healthy aorta submitted to various mechanical loadings, both at the material's scale (uni- and biaxial tensile tests, bending) and at the structure's scale (inflation with prestretch, bending, diametric compression). Secondly, several commercial prostheses were characterized using dedicated experimental devices combined with image recordings. The prostheses were tested under the same boundary and loading conditions as the ones used in the numerical simulations. These tests showed that the actual prostheses are not fully mechanically compatible with the host aorta. In order to solve this problem, the last part of this work was dedicated to the design of new biomimetic textiles, i.e. mimicking the healthy aorta's mechanical behavior and main histologic properties (“wavy fibres” and “preferred fiber orientations”), which can be produced industrially using “warp knitting” technology. Firstly, the mechanical behavior of several PET yarns made of different titers, filament numbers and textures were characterized after several treatments (thermal, etc.). This step enabled to identify one specific yarn to produce the biomimetic textiles. Then, a first optimization of the manufacturing parameters (weave, gauge, density, etc.) was made step by step by means of several textile production and planar tests (uni- and biaxial tensile tests). Finally, several trials were conducted to design tubular structures from the optimized textiles. Two shaping methods were developed: sewed tubes / weaved tubes. The continuously “weaved tubes” production is an innovative and promising technology as far as we know. The mechanical behavior of the new tubes was characterized using inflation tests for a first assessment. More specifically, the effect of the treatments usually applied on medical textiles (cleaning, thermal treatment, coating) was tested on weaved tubes and planar textiles samples. By adjusting the parameters of the several processes - and mostly those of thermal treatments – it was possible to adjust the textiles' mechanical behavior in order to make it the closest to the AA's one. Anévrisme de l’aorte abdominale Biomimétisme Matériaux textiles techniques Homogénéisation Essais mécaniques (Endo)prothèses artérielles Abdominal aortic aneurysm Biomimetism Textile materials Homogenisation Mechanical testing Arterial (endo)prosthesis 620
114	Estudo da fratura dúctil em chapas de aço médio carbono sob a ótica da teoria da mecânica do dano. / Ductile fracture study of medium carbon steel sheets under the continuum damage mechanics point of view. Stergios Pericles Tsiloufas 18 September 2012 (has links) Este trabalho busca avaliar a ductilidade de ligas metálicas utilizando como ferramenta a teoria da mecânica do dano proposta por Kachanov e desenvolvida por Lemaitre, a qual é apresentada desde as hipóteses básicas até as equações que modelam a deterioração de um material em regime de fratura dúctil. Como o enfoque do trabalho é a predição de trincas em processos de conformação mecânica, em especial estampagem de chapas, o mecanismo de formação destes defeitos é revisado, buscando na literatura o entendimento de como os parâmetros microestruturais influenciam na fratura dúctil. Ensaios de tração foram efetuados em corpos de prova retirados de chapas de aço SAE 1050 em duas condições microestruturais, cementita esferoidizada em matriz ferrítica e ferritaperlita, e em duas direções em relação à laminação da chapa original, paralelo e transversal. A evolução do dano foi medida de maneira indireta por meio da variação do módulo elástico e as propriedades mecânicas necessárias para utilização do modelo de Lemaitre foram calculadas. Por meio de difração de raios X, efetuamos o estudo da evolução da textura cristalográfica, apresentado na forma de figuras de distribuição de orientação e análise da intensidade das principais fibras encontradas em aços laminados a quente. Não foi observada influência significativa do tipo de microestrutura e da direção de deformação na evolução da textura. Por fim, o modelo de evolução de dano de Lemaitre foi transformado em um algoritmo numérico e implementado no código comercial Abaqus, em sua versão explícita, por meio do uso da subrotina VUMAT. Resultados foram obtidos e comparados com os experimentos, validando a aplicação do modelo. A evolução do dano para o aço SAE 1050 também foi comparada com resultados para outros aços ao manganês encontrados na literatura. Relações empíricas entre o teor de carbono e parâmetros como a deformação limite para início do dano, resistência à evolução do dano e dano máximo suportado foram desenvolvidas e apresentadas, com o intuito de funcionar como guias gerais para cálculo sem a necessidade de uma bateria de ensaios dedicados, facilitando a utilização da teoria da mecânica do dano em condições industriais. / The aim of the present work is to evaluate the ductility of metallic alloys employing the theory of damage mechanics as suggested by Kachanov and developed by Lemaitre, which is presented since its basic hypothesis until the equation that model the material deterioration under a regime of ductile fracture. As the focus of the work is the fracture prediction during mechanical working processes (mainly sheet metal stamping), the mechanism of formation of these defects is revised, based upon literature data, aiming at the understanding of how the material microstructural parameters influence ductile fracture. Tensile tests have been performed on samples obtained from SAE 1050 steel sheets for two microstructural conditions namely spheroidized cementite and regular ferrite-perlite for two rolling directions (rolling and transverse directions). In those tests, damage evolution has been measured indirectly through the materials variation in the Young modulus with strain, obtaining the mechanical properties, needed to be used in the calculation of Lemaitres model. Through X-ray diffraction measurements, the crystallographic texture evolution, presented in the form of orientation distribution functions and the associated fiber intensities observed for both microstructural conditions, has been evaluated. No major influence has been observed in this texture evolution, for the tested conditions. Finally, the Lemaitre damage evolution model has been transformed into a numerical algorithm and implemented in the Abaqus commercial code, in its explicit form, through the VUMAT sub-routine. Results have been obtained and compared with the experimental values, validating the suggested model. Damage evolution for the SAE 1050 steel has been also compared with results from literature for other C-Mn steels. Empirical relationships between C level and damage parameters such as limit strain for damage initiation, resistance to damage evolution and maximum allowable damage, have been developed and presented, envisaging their application as general guidelines, without requiring a sequence of dedicated tests, making easier the usage of damage mechanics under industrial conditions. Conformação mecânica Ensaios mecânicos Materiais metálicos Mecânica do dano Método dos elementos finitos Continuum damage mechanics Finite element method Mechanical conformation Mechanical testing Metallic material
115	Avaliação da microarquitetura e biomecânica de ossos trabeculares normais, osteopênicos e osteoporóticos de vértebras humanas por técnicas de ensaios mecânicos, microtomografia de raios-X e homogeneização assintótica / Evaluation of microarchitecture and biomechanics of normal, osteopenic and osteoporotic trabecular bones from human vertebrae by mechanical tests, X-ray microtomography and asymptotic homogenization techniques Reinaldo Cesar 28 November 2014 (has links) Avaliação da \"qualidade\" da microarquitetura óssea contribui na prevenção e risco de fraturas associado a osteoporose. Amostras de ossos trabeculares de corpos vertebrais da região T12, L1 e L4 de 30 de indivíduos (cadáveres humanos), classificados pela técnica de ultrassonometria de calcâneo como normais, osteopênicos e osteoporóticos foram utilizadas. Os parâmetros histomorfométricos, físicos e mecânicos da microarquitetura analisados pela técnica de microtomografia de raios-X, ensaios mecânicos de compressão axial e nanoindentação. Baseado nestes parâmetros, constantes elásticas efetivas globais foram obtidas pela técnica homogeneização assintótica para estrutura tipo-placa. Teste ANOVA apresentou diferenças, muito e extremamente significativas para densidade linear estrutural (p = 0,017), grau de anisotropia (p = 0,042), auto valor (p = 0,045), número de Euler (p = 0,016), idade (p = 0,009), separação trabecular (p = 0,009), densidade de conectividade (p = 0,006), módulo de elasticidade (p = 0,001), tensão máxima no limite de resistência a fratura (0,001), índice de qualidade óssea do calcâneo (p = 0,0001), fração de volume ósseo (p = 0,0001), espessura trabecular (p = 0,0002), dimensão fractal (p = 0,0002), momento de inércia polar médio (p = 0,00005), excentricidade (p = 0,0002), fração de porosidade (p = 0,0001) e densidade mineral óssea aparente (p = 0,00005) entre os grupos. O teste de Spearman identificou correlação moderada, alta e muito alta dos valores da tensão máxima no limite de resistência a fratura com os parâmetros de idade (r = -0,684), fração de volume ósseo (r = 0,762), fator de forma trabecular (r = -0,754), espessura trabecular (r = 0,675), densidade linear trabecular (r = 0,622), autos valores (r = -0,615), dimensão fractal (r = 0,855), momento de inércia polar médio (r = 0,816), excentricidade (r = -0,569) e fração de porosidade (r = -0,762). Estes parâmetros são indicadores da qualidade da microarquitetura óssea trabecular e risco de fratura associado a osteoporose. / Evaluation of the \"quality\" of bone microarchitecture can contribute to the prevention and risk of fractures associated with osteoporosis. Samples of trabecular bone from the vertebral regions T12, L1 and L4 from the bodies of 30 individuals (human cadavers), classified by ultrasonometry technique calcaneus as normal, osteopenic and osteoporotic were used. The histomorphometric, physical and mechanical parameters of the microarchitecture were analyzed by X-ray microtomography technique, mechanical tests of axial compression and nanoindentation. Based on these parameters, globally effective elastic constants were obtained by asymptotic homogenization technique for type-plate structure. ANOVA test showed differences that were very and extremely significant for the following: structural linear density (p = 0.017) anisotropy (p = 0.042), auto value (p = 0.045), Euler number (p = 0.016), age (p = 0.009), trabecular separation (p = 0.009), connectivity density (p = 0.006), elastic modulus (p = 0.001), maximum stress fracture strength limit (0.001), bone quality score of the calcaneus (p = 0.0001), bone volume fraction (p = 0.0001), trabecular thickness (p = 0.0002), fractal dimension (p = 0.0002), mean polar moment of inertia (p = 0.00005), eccentricity (p = 0.0002), porosity fraction (p = 0.0001) and apparent bone mineral density (p = 0.00005) between groups. The Spearman test identified moderate correlation, high and very high values of maximum stress fracture resistance limit for the following parameters: age (r = -0.684), bone volume fraction (r = 0.762), trabecular bone pattern factor (r = -0.754), trabecular thickness (r = 0.675), trabecular linear density (r = 0.622), auto value (r = -0.615), fractal dimension (r = 0.855), mean polar moment of inertia (r = 0.816), eccentricity (r = -0.569) and porosity fraction (r = -0.762). These parameters are quality indicators of the microarchitecture of trabecular bone and fracture risk associated with osteoporosis. Ensaios mecânicos Homogeneização assintótica Microtomografia de raios-X Ossos trabeculares de vértebras humanas Osteoporose Asymptotic homogenization Human vertebrae trabecular bones Mechanical testing Osteoporosis X-ray microtomography
116	Desenvolvimento de um sistema modificado de suspensão do rato pela cauda, como modelo de osteopenia / Development of a modified system of tail suspension of the rat as a model of osteopenia. Mauricio José Falcai 19 August 2011 (has links) Introdução: A suspensão do rato pela cauda é método usado para simular os efeitos da microgravidade e hipoatividade física sobre o sistema musculoesquelético e outros sistemas. O método convencional usa a tração cutânea para a fixação da cauda do animal ao sistema de suspensão, sendo idealmente aplicado durante até três semanas. Depois desse período surgem lesões cutâneas, situações estressantes e soltura dos animais. Estes fatos limitam observações por períodos mais longos. O objetivo deste trabalho foi propor e avaliar um sistema de suspensão do rato pela cauda que utiliza tração esquelética com fio de Kirschner atravessado na vértebra caudal, comparando sua eficiência como modelo de osteopenia com a tração cutânea convencional, durante três e seis semanas. Metodologia: 60 ratas foram distribuídas em seis grupos (n=10): GI - três semanas-suspensão pela cauda em tração esquelética; GII - três semanas-suspensão em tração cutânea; GIII - três semanas sem suspensão; GIV - seis semanas-suspensão em tração esquelética; GV - seis semanas-suspensão em tração cutânea; GVI - seis semanas sem suspensão. Avaliação foi clínica com preenchimento de lista diária de achados de estresse e exame post-mortem com determinação dos níveis de corticosterona plasmática e estado da mucosa gastroesofágica. Avaliação dos efeitos da suspensão sobre osso ocorreu por meio da determinação da densidade mineral óssea, ensaio mecânico e histomorfometria, realizados tanto no fêmur, quanto no úmero. Resultados: não houve diferença estatisticamente significante entre os grupos suspensos observados durante três semanas, para quaisquer dos parâmetros investigados. Entretanto, em seis semanas, sete animais (70%) em tração cutânea foram perdidos por lesões de pele e, na tração esquelética, apenas um (10%). Quanto ao ganho de peso corporal e os outros parâmetros clínicos não houve diferenças entre os grupos suspensos por seis semanas. A densidade mineral óssea, força máxima, rigidez e parâmetros histomorfométricos dos fêmures diminuíram até três semanas quando os animais suspensos foram comparados com os controles. Entretanto, depois estabilizaram, tanto para os animais suspensos pela tração cutânea, quanto esquelética, sem diferenças entre eles. No úmero não houve diferenças importantes entre os animais suspensos e os controles. Conclusão: O sistema de tração esquelética foi mais eficiente para manter os animais suspensos até seis semanas, quando o número de complicações foi menor que na tração cutânea. A eficiência de ambos os métodos de suspensão em termos de enfraquecimento ósseo foi semelhante em ambos grupo. / Background: Suspension of the rat by the tail is a method that is used to simulate the effects of microgravity and physical hypoactivity on the musculoskeletal system and also on other systems. The conventional suspension method uses the skin traction for fixing the animal to the suspension system and it is ideally applied for three weeks. After this period of time, skin lesions, stressful conditions and animal loosening may occur. These facts limit observations for longer periods of time. The aim of the present study was to propose and evaluate a rat tail suspension system using skeletal traction with a crossing Kirschner wire in the tail vertebra and to compare it with the conventional skin traction method, during three and six weeks. Methods: 60 rats allocated in six groups (n = 10): GI - three-week tail suspension in skeletal traction; GII - three week skin traction-suspension; GIII - three weeks without suspension; GIV - six-week suspension skeletal traction; GV - six weeks in cutaneous traction, GVI - six weeks without any suspension. Clinical evaluation was made filling up a daily list of findings of stress indicators and, at the end of the experimental period, by post-mortem examination, with determination of plasma corticosterone levels and status of the gastroesophageal mucosa. Evaluation of the effects of suspension on bone was carried out by the determination of bone mineral density, histomorphometry and mechanical tests that were conducted both in femurs and humerus. Results: no statistically significant difference was observed between groups for three weeks for the suspended animals, for any of the parameters investigated. In six weeks, seven suspended animals in skin traction were lost by skin lesions (70%) and, in skeletal traction, one (10%). As for the weight gain and other clinical parameters no differences was observed between the suspended groups. Comparison between suspended and control animals showed that bone mineral density, maximum strength, stiffness and histomorphometric parameters of the femur of suspended decreased in three weeks and then stabilized for both groups suspended by the skin traction and skeleton, with no differences between them. Humerus presented no significant differences between suspended animals and controls. Conclusion: The system of skeletal traction was more efficient to keep the animal suspended for six weeks, when the number of complications was lower than in the skin traction group. Both suspension methods had the same efficiency to weaken the bone. histomorfometria osteopenia suspensão pela cauda teste mecânico tração cutânea tração esquelética histomorphometry mechanical testing osteopenia skeletal traction skin traction tail suspension
117	Dual-energy digital radiography in the assessment of bone characteristics Toljamo, P. (Päivi) 06 October 2015 (has links) Abstract Today, the diagnosis of osteoporosis and assessment of fracture risk is based on estimation of bone mineral density (BMD) determined by dual-energy X-ray absorptiometry (DXA). A lack has been shown in the prediction of individual fracture risk using DXA-based BMD (BMDDXA). Digital radiography (DR) has eased the application of dual-energy techniques for separating bone and soft tissue, but the direct application of dual-energy digital radiography (DEDR) to determine BMD has not been investigated. Additionally, with BMD and bone mass, bone geometry affects strongly the mechanical strength of bone. Geometrical parameters can also be determined from the DR images. This study aimed to investigate the ability of DEDR to determine BMD and whether the combination of DEDR-based BMD and geometry improves the prediction of maximal load. Fracture and osteoporosis diagnoses could thus be done with one examination, i.e. with DEDR, whereas in the current routine both DR imaging and DXA examination are needed for diagnoses. Reindeer femora were imaged by DR with two different energies (79 and 100 kVp). The different geometrical parameters were also determined from the 79 kVp images. The BMD measured by DEDR (BMDDEDR) were calculated using the calculation principle of DXA. The ability of BMDDEDR to predict BMDDXA was investigated. The femora were mechanically tested in an axial loading configuration with the shaft in a vertical position to determine mechanical parameters. The best combination of BMDDEDR and geometrical parameters to predict bone maximal load was explored. BMDDXA was used for comparison. Significant moderate to high linear correlations were observed in all regions of the upper femur (femoral neck, Ward’s triangle, trochanter and inter-trochanter) between BMDDEDR and BMDDXA. BMDDEDR of the femoral neck and BMDDXA of the femoral neck predicted maximal load similarly. The best combination of parameters to predict maximal load was BMDDEDR at Ward’s triangle, femoral shaft diameter (FSD) and femoral shaft axis length (FNAL) (r = 0.79, p < 0.05). The study shows that DEDR is a suitable method to determine BMD in vitro and the combination of BMD and geometry improves the prediction of bone maximal load when compared to BMDDEDR of femoral neck or trochanter only. The thesis also includes unpublished data from a preliminary human study. / Tiivistelmä Osteoporoosin diagnosointi ja murtumariskin määrittäminen perustuvat kaksienergisellä röntgenabsorptiometrialla (DXA) mitattavaan luun mineraalitiheyden (BMD) arviointiin. DXA:lla määritetyn luun mineraalitiheyden (BMDDXA) on kuitenkin osoitettu olevan puutteellinen murtumariskin yksilöllisessä ennustamisessa. Digitaalinen röntgenkuvaus (DR) on helpottanut sellaisten kaksienergisten tekniikoiden toteuttamista, joissa luu ja pehmytkudos on eroteltu toisistaan. Kaksienergisen digitaalisen röntgenkuvausmenetelmän (DEDR) soveltamista BMD:n määrittämiseen ei ole tutkittu. BMD:n ja luun massan lisäksi on luun geometrialla vahva vaikutus luun mekaaniseen lujuuteen. Geometriset parametrit voidaan määrittää niin ikään digitaalisista röntgenkuvista. Tässä työssä tutkittiin, pystytäänkö DEDR:llä määrittämään BMD sekä parantaako DEDR:llä mitattujen BMD:n ja geometrian yhdistelmä luun maksimikuormituksen ennustetta. Näin ollen murtuma- ja osteoporoosidiagnoosit voitaisiin tehdä yhdellä tutkimuksella (DEDR), kun nykyisin diagnoosit vaativat sekä digitaalisen röntgenkuvauksen että DXA-tutkimuksen. Poron reisiluut kuvattiin digitaalisen röntgenlaitteen kahdella eri kuvausjännitteellä (79 ja 100 kVp). 79 kVp -kuvista määritettiin myös erilaiset geometriaparametrit. BMD laskettiin DEDR-kuvista (BMDDEDR) DXA:n laskentaperiaatetta käyttäen. BMDDEDR:n kyky ennustaa BMDDXA:a tutkittiin. Maksimikuormituksen selvittämiseksi reisiluut testattiin mekaanisesti aksiaalisuunnassa varren ollessa pystysuorassa asennossa. BMDDEDR- ja geometriaparametreista määritettiin paras yhdistelmä maksimikuorman ennustamiseen. BMDDXA-arvoja käytettiin analysoinnissa vertailun vuoksi. BMDDEDR- ja BMDDXA-arvojen välillä havaittiin merkitsevä keskinkertainen tai korkea korrelaatio kaikissa mielenkiintoalueissa (reisiluun kaula, Wardin kolmio, sarvennoisen alue ja reisiluun varren alue). Wardin kolmiosta mitatun BMD:n (WABMDDEDR), reisiluun varren halkaisijan (FSD) ja reisiluun kaulan kautta kulkevan akselin (FNAL) yhdistelmä ennusti parhaiten luun haurautta (r = 0.79, p < 0.05). Tutkimus osoittaa, että DEDR on sopiva menetelmä BMD:n määrittämiseen tutkimusolosuhteissa ja että BMD:n ja geometrian yhdistelmä parantaa maksimikuormituksen ennustetta pelkästään reisiluun kaulasta tai sarvennoisesta mitattuun BMDDEDR:iin verrattuna. Väitöskirja sisältää myös julkaisemattomia tuloksia alustavista ihmistutkimuksista. bone mineral density dual-energy digital radiography geometry maximal load mechanical testing geometria luun mineraalitiheys maksimikuorma mekaaninen testaus DXA
118	MENs Doped Adhesive and Influence on Fracture Toughness Yang, Kao Z 31 March 2016 (has links) Composites are in high demand; however, fasteners are often required for joining process and can reduce their advantages. One solution is adhesive bonding, but uncertainty exists regarding long term durability and the ability to interrogate bonds noninvasively. One potential solution to qualify bond integrity over its service life is to dope an adhesive with magneto-electric nanoparticles (MENs). MENs can yield output magnetic signatures that are influenced by bond quality and damage state. In this study, adhesives have been doped with MENs prior to bonding at 1% volume concentration. For optimum implementation, this health monitoring system should be evaluated for effects of the MENs on the mechanical properties. Lap-shear testing was conducted to assess changes in the bond strength from addition of the nanoparticles. End-notched flexure (ENF) tests were also conducted for fracture mechanism evaluation. Results showed an increase of 12% in shear strength as a function of MENs loading concentration. In addition, a feasibility study of output magnetic signature as a function of elevated temperature and humidity were evaluated for MENs doped and un-doped adhesives. Results gave an order of magnitude change in magnetic signal as a function of exposure time. Composites Adhesive MENs Nanoparticles Carbon Fiber Epoxy Mechanical Testing Structural Health Monitoring Aerospace Engineering Aviation Electrical and Computer Engineering Materials Science and Engineering Mechanical Engineering
119	Étude des mécanismes de la plasticité dans les verres métalliques massifs / Study of mechanisms of plasticity in bulk metallic glasses Thai, Minh Thanh 18 June 2014 (has links) Étude des mécanismes de la plasticité dans les verres métalliques massifs. Ce travail a porté sur une approche des mécanismes de la plasticité à la transition vitreuse dans les verres métalliques massifs base zirconium. Une étude bibliographique des verres métalliques, ses caractéristiques essentielles a été tout d'abord introduite, particulièrement orientée vers leurs propriétés de stabilité structurale, ainsi que vers leurs propriétés mécaniques à haute température. Le modèle de volume libre (selon l'approche de Spaepen) a été utilisé dans une modélisation par éléments finis de la plasticité du verre. Le verre métallique de composition Zr_{52,5}Cu_{22}Al_{10}Ni_{13}Ti_{2,5}, étudié dans cette thèse, est élaboré par différentes méthodes d'hypertrempe sous forme de barreaux et de rubans. Les caractérisations physico-chimiques ont été menées par DSC, DRX et MEB. Les résultats de DSC ont montré que les verres élaborés possèdent un large intervalle de transition vitreuse et une bonne stabilité thermique. L'étude couplant DSC et DRX à haute température a permis d'établir la nature des phases et leur ordre d'apparition en cours de cristallisation. La transition vitreuse et la cristallisation ont été étudiées en détail par DSC modulée (MDSC) par la suite. La cinétique de cristallisation du verre a été généralement analysée par DSC isotherme.La caractérisation de la relaxation du verre métallique à partir de traitements thermiques successifs, par DSC et DRX à température proche de la température de transition vitreuse T_g pendant des temps différents, est rapportée dans le quatrième chapitre. Ce phénomène de relaxation peut être observé directement par les études structurales en utilisant la DSC et la diffraction des rayons X. Ensuite, l'évolution de la relaxation du verre est étudiée par mesure de dureté et de densité. La variation de la dureté H_v par rapport à la profondeur de pénétrateur h, après les traitements thermiques, a été menée par micro-dureté. La mesure de volumique du verre Zr_{52,5}Cu_{22}Al_{10}Ni_{13}Ti_{2,5} a été menée après les différents temps de relaxation thermique, nous donnent une densité d'environ de 6,769g/cm^3. Les traitements thermiques isothermes sur ce verre ont montré une augmentation de sa densité au cours du temps. Afin d'observer l'apparition puis l'évolution des mécanismes de déformation dans le verre métallique à l'échelle locale, une nouvelle technique - lithographie électronique - avec un dispositif d'essai mécanique in situ, permettant de déposer des microgrilles à la surface d'une éprouvette et de réaliser un essai de compression dans un MEB, est présentée dans le cinquième chapitre. Puis, les résultats sont analysés par corrélation d'images. La démarche expérimentale des essais MEB in situ est détaillée dans ce chapitre.Des essais à vitesse de déformation constante sont présentées dans le chapitre suivant. Ils ont été conduits dans l'intervalle de transition vitreuse (entre 673K et 713K). Enfin, les études de champs de déformation par corrélation d'image ont montré une limite de détection de la localisation supérieure à 2 micromètre sur les cartes de déformation. S'il y a des bandes de cisaillement, soit leurs déformation en inférieure à celles due à l'oxydation, soit elles sont plus fines que 2 micromètre (échelle de mesure). Le dernier chapitre présente une modélisation pour décrire le comportement élastique et plastique des verres métalliques. Dans le cadre de cette thèse, une approche de la modélisation des essais mécanique en se basant sur le modèle du volume libre a été conduite à l'aide du logiciel ZéBulon. Des travaux préliminaires pour étudier la localisation dans le cadre du volume libre ont été conduits et vont nécessiter une étude plus poussée.Mots clef : verre métallique, transition vitreuse, relaxation structurale, volume libre, caractérisation, micro-dureté, lithographie, compression, MEB in situ, modélisation / Study of the mechanisms of the plasticity in the massive metallic glasses. This work concerned an approach of the mechanisms of the plasticity in the glassy transition in the massive metallic glasses base zirconium. A bibliographical study of the metallic glasses, its essential characteristics was introduced first of all, particularly directed to their properties of structural stability, as well as to their high-temperature mechanical properties. The model of free volume (according to the approach of Spaepen) was used in a modelling by elements finished by the plasticity of the glass. The metallic glass of composition Zr _ (52,5) Cu _ (22) Al _ {10} Nor _ (13) Ti _ {2,5}, studied in this thesis(theory), is developed by various methods of hypertempering in the form of bars and of ribbons. Verres métalliques Analyse thermique Essais mécaniques Microscopie à balayage Modélisation Théorie du volume libre Metallic glasses Thermal analysis Mechanical testing Scanning microscopy Modeling Theory of free volume
120	Damage tolerance of 3D woven composites with weft binders Arshad, Mubeen January 2014 (has links) 3D woven composites, due to the presence of through-thickness fibre bridging, have the potential to improve damage tolerance and at the same time to reduce the manufacturing costs. However, the ability to withstand damage depends on weave architecture as well as the geometry of individual tows. A substantial amount of research has been performed to understand in-plane properties as well as the performance of 3D woven composites exposed to impact loads, but there is limited research on the damage tolerance and notch sensitivity of 3D weaves and no work is reported on the damage tolerance of 3D weaves with a weft binding pattern. In view of the recent interest in 3D woven composites, the influence of weft binder on the tensile, open hole tensile, impact resistance and subsequent residual compressive strength properties and failure mechanisms of 3D woven composites was investigated against equivalent UD cross-ply laminate. Four different 3D woven architectures; layer-to-layer, angle interlocked, twill angle interlock and modified angle interlock structures were produced under identical weaving conditions. All the above mentioned tests were performed in both the warp and weft directions on 3D woven and UD cross-ply laminates. Stress concentration and yarn waviness due to through-thickness reinforcement led to lower mechanical properties compared with the UD cross-ply laminate. However, improved in-plane and damage tolerance properties of 3D woven composites under tensile loads were achieved by modifying the weave architecture. The influence of the weave architecture and binder yarn orientation on the notch insensitivity and damage tolerance of 3D woven composites was less significant for compressive loads. Despite the lower undamaged compression strength of 3D woven structures, their residual compressive strength was found to be superior to their equivalent UD cross-ply laminates. The lower rate of strength reduction in the 3D woven fabrics laminates was attributed to a crack bridging mechanism, effectively inhibiting delamination propagation. 620.1

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