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Intra- and interspecific variations of leaf Si concentration in broad-leaved trees / 広葉樹の葉のケイ素濃度の種内および種間の変異Kajino, Hirofumi 23 March 2022 (has links)
京都大学 / 新制・課程博士 / 博士(農学) / 甲第23945号 / 農博第2494号 / 新制||農||1090(附属図書館) / 学位論文||R4||N5380(農学部図書室) / 京都大学大学院農学研究科森林科学専攻 / (主査)教授 北島 薫, 准教授 岡田 直紀, 教授 小杉 緑子 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM
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Experimental analysis of the tensile property of FFF-printed elastomersLin, X., Coates, Philip D., Hebda, Michael J., Wang, R., Lu, Y., Zhang, L. 12 January 2021 (has links)
Yes / Designing and manufacturing functional parts with enhanced mechanical property is a major goal of fused filament fabrication (FFF) for polymeric elastomers, which exhibits major advantages in producing such parts with a range of structures. But the unsatisfactory mechanical performance constrains greatly its real application and there is yet no consensus in the mechanical characterization of printed samples. This work takes the nozzle height as the considered factor and tests the tensile property of FFF-printed thermoplastic polyurethane (TPU). Rheological property of the TPU melt, represented here by die swell behavior and shear viscosity, were measured initially to obtain a preliminary assessment of the material suitability and an optimization of melt extrusion conditions for FFF processing. Then correlation between the cross-section profile of deposited bead and the tensile performance of printed sample were evaluated. Both the shape of deposited bead and the bonding strength of two adjacent beads are emphasized when explaining the measured tensile strength. The significance of molecular permeation efficiency at bead-bead interfaces, and bonding-releasing patterns between adjacent beads to the tensile failure of printed objects is discussed. / The support provided by China Scholarship Council (CSC, 201806465028) for Xiang Lin during his academic visit in University of Bradford is acknowledged.
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The electrodeposition and characterisation of compositionally modulated tin-cobalt alloy coatings as lead-free plain bearing materialZhang, Yi January 2008 (has links)
Traditionally, lead-based bearing overlays dominate the commercial automotive market and it has been proven that an excellent combination of properties can be attained through their use. However, lead is a toxic metal and a cumulative poison in humans. According to the European Union End-of-Life Vehicle (ELV) Directive proposed in 1997, vehicles that registered in'all the member states after 1st July 2003 should contain no lead, mercury, cadmium and hexavalent chromium. In this study, a new sulphate-gluconate electrolyte was used to produce multilayer SnCo coatings, aimed at a lead-free overlay for future market use. Tin-cobalt compositionally modulated alloy (CMA) coatings produced from sulphategluconate electrolytes have been previously examined as a potential replacement for lead-free bearing overlays [1]. However, some obstacles may exist which limit their potential use on an industrial scale. For example, long electroplating times are required to produce a thick coating which is very undesirable from an industrial viewpoint, and also the possible elemental interdiffusion occurring in the coating system under engine operating temperatures could rapidly deteriorate the coating properties. In addition, there is an increasing demand from automotive industry to further improve bearing overlay properties, for example for high performance and high compression ratio engines.
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Structure property and deformation analysis of polypropylene montmorillonite nanocomposites.Hernandez-Luna, Alejandro 05 1900 (has links)
Nanocomposites with expandable smectites such as montmorillonite layered silicates (MLS) in polymer matrices have attracted extensive application interest. Numerous MLS concentrations have been used with no particular justification. Here, we investigate the effects of MLS dispersion within the matrix and on mechanical performance. The latter is resolved through a three-prong investigation on rate dependent tensile results, time dependent creep results and the influence of a sharp notch in polypropylene (PP) nanocomposites. A fixed concentration of maleated polypropylene (mPP) was utilized as a compatibilizer between the MLS and non-polar PP. Analysis of transmission electron micrographs and X-ray diffraction patterns on the surface and below the surface of our samples revealed a unique skin-core effect induced by the presence of clay. Differential scanning calorimetric and polarized optical microscopic examination of spherulites sizes showed changes in nucleation and growth resulting from both the maleated PP compatibilizer and the MLS. These structural changes resulted in a tough nanocomposite, a concept not reported before in the PP literature. Nonlinear creep analysis of the materials showed two concentrations 3 and 5 % wt of PP, which reduced the compliance in the base PP. The use of thermal wave imaging allowed the identification of ductile failure among materials, but more important, aided the mapping of the elastic and plastic contributions. These are essential concepts in fracture analysis.
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Elaboration de polypropylène ou de polystyrène à l'aide du dioxyde de carbone supercritique : procédé – microstructure – propriétés mécaniques / Supercritical carbon dioxide assisted toughening of polypropylene or polystyrene : process, microstructure and mechanical propertiesBao, Jin-Biao 16 December 2011 (has links)
Le moussage du polypropylène (PP) et du polystyrène (PS) par le scCO2 est étudié de manière systématique avec l’accent sur la relation entre le procédé, la microstructure et les propriétés mécaniques. La première partie de cette thèse porte sur l’amélioration de la résistance au choc du PP par cristallisation induite par le scCO2. Dans un deuxième temps, le PP fortement orienté avec des structures shish-kebab et sphérolite est utilisé pour étudier l’influence de la structure cristalline sur la nucléation et la croissance des cellules pendant le procédé de moussage sous le scCO2. Ensuite, les influences des conditions de moussage ainsi que celles des paramètres structuraux de la mousse de PS ont été étudiées. Les mousses de PS à cellules isotropes ont été comparées avec celles de PS à cellules orientées. Enfin, un procédé de moussage discontinu en deux étapes est développé afin de produire des mousses de PS à cellules bi-modales en utilisant le scCO2 en tant qu’agent de moussage. Cette structure unique de petites et grandes cellules réparties de manière homogène au travers de l’ensemble du volume de la mousse confère à cette dernière des propriétés particulières. / In this work, scCO2 induced foaming of PP or PS is systematically studied with emphasis on the relationship between process, microstructure and mechanical properties. The first part of the thesis deals with the toughening of iPP by scCO2 induced crystallization for the fine separation of rigid crystalline domains and soft amorphous ones in the polymer matrix. The highly oriented iPP with “shish-kebab” and “spherulite” are then used for CO2 foaming to investigate the effect of crystalline structure on the formation of cell nucleation and growth. In addition, the effect of the foaming conditions and the cell structural parameters of PS foams on the mechanical properties are studied systematically. PS foams with isotropic cell morphology and oriented cell one are prepared. Finally, a two-step depressurization batch process is developed to produce bi-modal cell structure PS foams by using scCO2 as the blowing agent. This unique cell structure with both small and large cells homogenously distributed throughout the entire volume of the foam sample might have particular properties.
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O estudo do comportamento reológico de nanocompósitos de copolímeros em bloco contendo nanocargas. / Study of nanocomposite rheological behavior of block copolymers containing nanofiller.Amurin, Leice Gonçalves 25 February 2014 (has links)
Neste presente trabalho foi realizado um estudo sobre copolímeros em bloco e seus nanocompósitos com diferentes estruturas morfológicas. Os polímeros estudados foram copolímeros de poliestireno-b-poli(etileno-co-butileno)-b-poliestireno (SEBS), sendo dois desses copolímeros com fração em massa de 30% de blocos de poliestireno (PS), e um deles modificado com anidrido maleico na fase de poli(etileno-co-butileno) (PEB). Os outros três copolímeros têm 13% de blocos de PS. A nanopartícula utilizada foi a argila montmorilonita organofílica Cloisite 20A. Os nanocompósitos foram preparados por dois métodos: i) mistura no estado fundido (extrusão); ii) solução. As microestruturas dos materiais resultantes foram caracterizadas pelas técnicas de espalhamento de raios X a baixo ângulo (SAXS) e difração de raios-X (DRX). As propriedades reológicas foram avaliadas em dois tipo de fluxo (cisalhamento e elongacional). Para avaliar as propriedades reológicas em fluxo de cisalhamento foram realizados ensaios de cisalhamento oscilatório em pequenas amplitudes (SAOS), cisalhamento oscilatório em grandes amplitudes (LAOS) e varredura de tempo (TS). Para avaliar as propriedades reológicas em fluxo elongacional foram realizados ensaios com geometria apropriada (SER), acoplada ao reômetro rotacional. Estes ensaios foram conduzindo em duas direções: paralela (longitudinal) e perpendicular (transversal) à direção do fluxo de extrusão. As análises de caracterização estrutural (DRX e SAXS) indicaram uma estrutura intercalada para os nanocompósitos SEBS/20A e esfoliada para as matrizes modificadas com anidrido maleico. A caracterização reológica dos copolímeros com 30% de blocos de PS em fluxo de cisalhamento mostrou que as morfologias dos nanocompósitos são estáveis com o tempo de cisalhamento, e permitiu confirmar as estruturas dos nanocompósitos. Para os copolímeros com 13% de blocos de PS foi possível identificar as temperaturas de transição ordem-ordem e ordem-desordem. Os resultados dos ensaios reológicos indicaram que ocorre alinhamento dos cilindros na direção dos fluxos de cisalhamento e elongacional. Também foram avaliadas as propriedades mecânicas, e os resultados mostraram que o comportamento mecânico é altamente influenciado pela estrutura morfológica e a incorporação de argila. / In this work block copolymers and their nanocomposites were studied. The polymers studied were copolymers of polystyrene-b-poly(ethylene-co-butylene)-b-polystyrene (SEBS), with two samples containing 30 wt% of PS blocks. The other three copolymers contained 13% of PS blocks. Two block copolymers are modified with maleic anhydride. The reinforcement used was the montmorillonite organoclay Cloisite 20A. The nanocomposites were prepared by two methods: i) melt blending (extrusion), with which a cylindrical hexagonal structure (anisotropic and isotropic) was obtained; ii) casting, with which a lamellar structure was obtained. The microstructures were characterized by the techniques of small angle X-ray scattering (SAXS) and X-ray diffraction (XRD). The rheological properties were evaluated in two different flows (shear and elongational). To evaluate the rheological properties in shear flow the samples were tested under small amplitude oscillatory shear (SAOS), large amplitude oscillatory shear (LAOS) and time sweep (TS). To evaluate the rheological properties in elongational flow, tests were carried out using an appropriate geometry (SER). The latter tests were conducted on samples aligned in two different directions: parallel (longitudinal) and perpendicular (transverse) to the flow direction of extrusion. The structural characterization analysis (XRD and SAXS) indicated an intercalated nanocomposite structure for SEBS/20A, and an exfoliated structure for the copolymers modified with maleic anhydride. The rheological characterization of the samples in shear flow showed that the morphologies of the nanocomposites are stable with time of shearing, and it confirmed the morphologies of the nanocomposites (30% PS block). For copolymers with 13 % of PS blocks it was possible to identify the order-order and order-disorder transition temperatures. The rheological tests showed that it is possible to align the morphologies in shear and elongational flows. The mechanical properties were also evaluated; the results have shown that the mechanical behavior was strongly influenced by the morphological structure and clay incorporation.
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Filmes biodegradáveis à base de proteína da torta de mamona: efeito do pH de extração das proteínas e do reforço com fibras de sisal e/ou glioxal / Biodegradable films made with proteins from castor bean cake: effect of protein extraction pH and sisal fiber and/or glyoxal reinforcementBittante, Ana Mônica Quinta Barbosa 29 June 2015 (has links)
O Brasil e o terceiro maior produtor de mamona do mundo e o maior produtor da América do Sul. O óleo da mamona tem grande potencial na cadeia de produção de biodiesel, sendo interessante a geração de recursos dos subprodutos, como a torta de mamona. Apesar de ser rica em proteínas, a torta de mamona tem limitada aplicação em virtude da presença da ricina, que apresenta elevada toxidez. Assim, esperando-se valorizar esse subproduto com novas aplicações tecnológicas, o objetivo desta tese foi o desenvolvimento de filme biodegradável a partir da proteína extraída da torta de mamona. Especificamente, estudou-se o efeito do pH (10, 11 e 12) de extração das proteínas sobre algumas propriedades físicas (espessura, propriedades mecânicas, solubilidade em agua, permeabilidade ao vapor de agua e umidade) dos filmes produzidos. A partir da avaliação destes resultados, foi então definido o pH de extração da proteína da torta de mamona para o segundo estudo que envolveu a produção de filmes a base da proteína extraída da torta de mamona, reforçados com fibra de sisal e/ou glioxal. Primeiramente, as proteínas foram extraídas em um reator, adicionando-se 20% de torta de mamona na solução de NaOH (pH= 10, 11 e 12), com velocidade de agitação de 400 rpm e a 50ºC. A separação do extrato proteico do resíduo insolúvel foi feita por centrifugação (4.000 rpm). Os extratos foram liofilizados e submetidos a analises para determinação da composição centesimal e dos aminoácidos. Isotermas de sorção dessas proteínas foram determinadas a 25ºC. Os filmes foram produzidos por \"casting\", ou seja, pela desidratação de soluções filmogênicas com concentração constante de proteínas. No primeiro estudo, utilizou-se 7,5g de proteína/100g de solução filmogênica, agente reticulante glutaraldeido (0,8g de glutaraldeido/100g de proteína) e plastificante glicerol (25g de glicerol/100g de proteína). No segundo estudo, utilizou-se 6g de proteína/100g de solução filmogênica, agente reticulante glioxal (0,5g de glioxal/100g de proteína), fibra de sisal (20g de fibra/100g de proteína e plastificante glicerol (25g de glicerol/100g de proteína). Os filmes foram avaliados subjetiva e objetivamente, através da determinação da espessura, do brilho, dos parâmetros de cor e opacidade, da microestrutura, das propriedades mecânicas por testes de tração e perfuração, da umidade, da solubilidade em agua, da calorimetria diferencial de varredura, das isotermas de sorção e da espectroscopia por transformada de Fourier. Os extratos de proteínas liofilizadas foram ricos em proteínas (66-69%), em todos os pH estudados, sendo rico também em sais minerais (12-24%), possivelmente devido ao emprego de NaOH. Não se observou diferenças na composição de aminoácidos em função do pH de extração. No primeiro estudo, os filmes produzidos apresentaram-se com coloração amarronzada e com aspecto visual homogêneo, independentemente do pH de extração das proteínas. Observou-se que o pH de extração das proteínas influenciou as propriedades mecânicas dos filmes. O aumento do pH implicou em filmes mais resistentes a tração e a perfuração, cuja tensão na ruptura e a forca na perfuração foram 4,5 MPa e 6,5 N, respectivamente, para os filmes produzidos com proteínas extraídas no pH=12. Entretanto, independentemente das diferenças obtidas, esses filmes se mostraram pouco deformáveis, com elongação na ruptura e deformação na perfuração cerca de 1,5 e 3,2%, respectivamente. A solubilidade em agua também foi afetada pelo pH de extração das proteínas da torta de mamona. Enquanto o filme produzido com proteínas extraídas em pH=10 foi completamente solúvel em agua, os filmes de proteínas extraídas em pH=12 apresentaram solubilidade de 58,5%. A umidade dos filmes não dependeu do pH, ficando em torno de 13%. No segundo estudo, a adição da fibra de sisal na solução filmogênica tornou os filmes mais rugosos, sem mudanças visuais perceptíveis em função da presença de glioxal. A adição da fibra de sisal na formulação aumentou a espessura dos filmes de 0,11 para 0,16mm e diminuiu o brilho medido no angulo de 60º, a forca na perfuração de 11,2 para 9,1N, a deformação na perfuração de 5,7 para 2,4%, a tensão na ruptura de 10,3 para 5,1 MPa, a elongação na ruptura de 78,5 para 24,2% sem contudo alterar o modulo elástico dos filmes, que permaneceu em torno de 1,1-1,5 MPa. A solubilidade em agua dos filmes diminuiu de 42,8 para 36,8%, porem a umidade dos filmes não foi afetada, permanecendo em torno de 14%. A permeabilidade ao vapor de agua aumentou em cerca de 50%, passando de 0,6 para 1,2 g.mm/h.m2.kPa. Quanto aos parâmetros de cor, de modo geral, a adição das fibras causou um aumento da luminosidade (L*) e da opacidade, e diminuição dos cromas a* e b* e da diferença total de cor (ΔE*). Na calorimetria diferencial de varredura, a adição da fibra aumentou a temperatura de transição vítrea da fração rica em glicerol. Avaliando as isotermas de sorção, pode-se sugerir que a fibra influenciou na capacidade de absorção de agua dos filmes. Não foi possível detectar alterações nos espectros de FTIR em nenhuma das formulações produzidas, provocadas pela reticulação da proteína liofilizada de torta de mamona dos filmes produzidos, nem pela fibra de sisal nos espectros gerados. Em conclusão, o pH 12 de extração das proteínas da torta da mamona proporcionou melhores filmes produzidos com essas proteínas, e a adição de fibras de sisal não implicou em melhoras nas propriedades dos filmes, contrariamente ao glioxal. / Brazil is the world\'s third largest castor bean producer and the largest producer in South America. The castor bean oil has great potential in the biodiesel production chain, with interesting resource generation of its by-products such as the castor bean cake. Despite being rich in proteins, castor bean cake has limited application due to the presence of ricin, which presents high toxicity. Thus, hoping to enhance this byproduct with new technological applications, the aim of this thesis was the development of biodegradable film with the protein extracted from castor bean cake. Specifically, the effect of protein extraction pH (10, 11, 12) on some physical properties (thickness, mechanical properties, water solubility, permeability to water vapor and moisture) of the films was studied. From the evaluation of these results, it was then defined pH extraction of castor bean cake protein for the second study, which involved the production of films made of protein extracted from castor bean, reinforced with sisal fiber and/or glyoxal. Firstly, proteins were extracted in a reactor, by adding 20% of castor bean cake in a NaOH solution (pH = 10, 11 and 12), with 400 rpm stirring speed and 50°C. Separation of the protein extract from the insoluble residue was made by centrifugation (4,000 rpm). Extracts were freeze-dried and had their chemical composition and amino acids determined. Sorption isotherms of these proteins were determined at 25°C. The films were produced by casting, i.e., by dehydration of film-forming solutions prepared with constant protein concentration. In the first study, we used 7.5g protein/100g film-forming solution, crosslinking agent (0.8g glutaraldehyde/100g protein), and plasticizer (25g glycerol/100g protein). In the second study, it was used 6g protein/100g film-forming solution, crosslinking agent (0.5g glyoxal/100g protein), sisal fiber (20g fiber/100g protein) and plasticizer (25g glycerol/100g protein). The films were evaluated subjectively and objectively, by the assessment of the following determinations: thickness, gloss, color and opacity parameters, microstructure, mechanical properties for tensile and puncture force tests, moisture, film solubility in water, differential scanning calorimetry, sorption isotherms and Fourier transform spectroscopy. The freeze-dried proteins were rich in proteins (66-69%) for every studied pH, the mineral salts content was high (12-24%) as well, possibly due to the use of NaOH. No significant difference in the amino acid composition was observed for the tested extraction pH values. In the first study, the films presented brownish color and homogeneous visual appearance irrespective of the protein extraction pH. It was observed that the protein extraction pH influenced mechanical properties of the films. The increase in pH resulted in films more resistant to tensile and puncture, with tensile strength and puncture force values of 4.5MPa and 6.5N, respectively, to the films produced with proteins extracted in pH 12. However, regardless of the differences obtained, these films showed to be little extensible, with elongation at break and puncture deformation around 1.5% and 3.2%, respectively. The film solubility in water was also affected by the extraction pH of the castor bean cake proteins. While the film produced with proteins extracted at pH 10 was completely soluble in water, films made with proteins extracted at pH 12 showed solubility of 58.5%. The moisture of the films did not depend on pH and remained around 13%. In the second study, the addition of sisal fiber in the filmforming solution made the films rougher, without noticeable visual changes due to the presence of glyoxal. The addition of sisal fiber in the formulation increased film thickness from 0.11 to 0.16mm and reduced gloss measured at 60° angle, puncture force from 11.2 to 9.1N, the puncture deformation from 5.7 to 2.4%, the tensile strength from 10.3 to 5.1MPa, and the elongation at break from 78.5 to 24.2% without altering the elastic modulus of the films, which remained around 1.1-1.5MPa. The film solubility in water decreased from 42.8 to 36.8%, but the moisture of the films was not affected, which was remaining around 14%. The water vapor permeability increased about 50%, from 0.6 to 1.2 g.mm/h.m2.kPa. As for the color parameters, in general, the addition of the fibers caused an increase in lightness (L*) and opacity, and decreased the monochromatic a* and b*, and the total color difference (ΔE*). In the differential scanning calorimetry assay, the addition of fiber increased the glass transition temperature of the glycerol-rich fraction. Evaluating the sorption isotherms, it can be suggested that the fiber influenced the water absorption capacity of the films. It was not possible to detect changes in FTIR spectra produced by the crosslinking of castor bean cake freeze-dried protein of films, as well by the sisal fiber. In conclusion, the extraction at pH 12 of the castor bean cake proteins provided the best films produced, and the addition of sisal fibers did not result in improvements in film properties, contrary to glyoxal.
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Maîtrise structurale de matériaux par fabrication additive en vue d'applications bio-médicales / Microstructural control of materials using additive manufacturing for biomedical applicationJoguet, David 15 February 2013 (has links)
De nos jours, le domaine des implants est un des enjeux important pour notre civilisation pour permettre d’améliorer notre quotidien. Pour ce faire, une large offre de matériaux et de technologies existe offrant de nombreuses possibilités afin de répondre aux attentes chirurgicales. Plusieurs familles de matériaux coexistent : les polymères, les céramiques et les matériaux métalliques ainsi que différents procédés de mise en forme. Parmi ceux-ci, le procédé de micro fusion laser sur lit de poudre est un procédé prometteur permettant de réaliser des pièces de géométries complexes. C’est précisément cette technologie qui a été retenue. Pour cela, afin d’approfondir la connaissance du procédé et évaluer l’impact des paramètres sur les structures métallographiques, une orientation se tournant vers des matériaux métalliques tels que le CoCrMo et le titane T40 a été envisagée.Ainsi, les objectifs de la thèse ont été de générer un matériau possédant de bonnes caractéristiques mécaniques ainsi qu’en faciliter son intégration dans un milieu biologique (implants). Pour ce faire, une structure de porosité contrôlée (pour faciliter le développement tissulaire) avec des propriétés mécaniques adaptées aux sollicitations est nécessaire. Le premier travail effectué fut donc une recherche préliminaire afin d’approfondir la connaissance du procédé, en particulier d’un point de vue énergétique et thermique. Afin d’identifier et d’évaluer l’impact des paramètres sur le taux de porosité et donc les propriétés mécaniques de la pièce, une méthode statistique de type Taguchi a été utilisée. Au travers de cette analyse, il est apparu que 3 paramètres inhérents au procédé (la distance entre tache laser, temps d’exposition et le pas de balayage) expliquent prêt de 80% des résultats. De plus, il est mis en évidence que les propriétés mécaniques d’une structure (module de Young et résistance à la rupture) peuvent être maitrisées grâce au taux de porosité de cette dernière et permettre ainsi un rapprochement des propriétés mécaniques de l’os cortical. Pour ce faire, des caractérisations mécaniques ont donc été réalisées pour évaluer le module de Young et la résistance à la rupture des pièces avec différentes structures. Une maîtrise des propriétés peut donc être envisagée et peut même être adaptée en réalisant des structures mixtes alliant partie dense et partie poreuse. / Nowadays, the field of implants is one of the major challenges for our civilization to help improve our lives. To do this, a wide range of materials and technologies are offering many opportunities to meet the surgical needs. Several types of materials exist: polymers, ceramics and metal as well as different methods of shaping materials. Among them , the process of micro fusion laser powder bed is a promising method for producing parts with complex geometries. It is this technology that has been used. To do this, in order to deepen the knowledge of the process and evaluate the impact of parameters on the metallographic structures , guidance , turning to metallic materials such as CoCrMo and titanium T40 was considered.Thus, the objectives of the thesis were to generate a material with good mechanical properties as well as ease of integration in a biological medium ( implants) . To do this, a controlled pore structure (to facilitate tissue development ) with properties adapted to mechanical stress is required. The first work was therefore a preliminary research to deepen understanding of the process , particularly an energy and thermal point of view . To identify and assess the impact of parameters on the porosity and therefore the mechanical properties of the part , a statistical method of Taguchi type was used. Through this analysis, it appeared that three parameters inherent to the process ( the distance between laser spot exposure and no scanning time ) explain 80% loan results. Moreover, it is highlighted that the mechanical properties of a structure ( Young's modulus and tensile strength ) can be controlled through the porosity of the latter and thus permit reconciliation of the mechanical properties of cortical bone . To do this , mechanical characterizations were therefore conducted to evaluate the Young's modulus and tensile strength of parts with different structures. A control properties can be considered and can even be adapted by making composite structures combining dense part and porous part .
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Processing-Structure-Property Correlation for Additively Manufactured Metastable High Entropy AlloyAgrawal, Priyanshi 08 1900 (has links)
In the present study both fusion based - laser powder bed fusion (LPBF), and solid state - additive friction stir deposition (AFSD) additive manufacturing processes were employed for the manufacturing of a metastable high entropy alloy (HEA), Fe40Mn20Co20Cr15Si5 (CS-HEA). A processing window was developed for the LPBF and AFSD processings of CS-HEA. In case of LPBF, formation of solidification related defects such as lack of fusion pores (for energy density ≤ 31.24 J/mm3) and keyhole pores (for energy density ≥ 75 J/mm3) were observed. Variation in processing conditions affected the microstructural evolution of the metastable CS-HEA; correlation between processing conditions and microstructure of the alloy is developed in the current study. The tendency to transform and twin near stress concentration sites provided excellent tensile and fatigue properties of the material despite the presence of defects in the material. Moreover, solid state nature of AFSD process avoids formation of solidification related defects. Defect free builds of CS-HEA using AFSD resulted in higher work hardening in the material. In summary, the multi-processing techniques used for CS-HEA in the present study showcase the capability of the AM process in tailoring the microstructure, i.e., grain size and phase fractions, both of which are extremely critical for the mechanical property enhancement of the alloy.
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Characterization of high energy beam welding of 6061/SiC aluminum matrix compositesHuang, Ru-Ying 14 July 2000 (has links)
The current thesis was designed to examine the welding characteristics of laser and electron beam
welding of the superplastic metal matrix composites (MMCs) reinforced with 1~20% SiC and to
differentiate the difference between the 6061 aluminum alloy and 6061/SiC composites.
The 6061/20%SiCw MMC was found to exhibit poor welding characteristics under electron beam
welding. This was because that the SiC whiskers would induce poor fluidity of molten Al matrix and
the electron beam continuously bombared the MMC resulting in material loss through sputtering, and
this effect induced an "V" groove formed at the center of the fusion zone. The laser beam welding of
the 20% SiCw MMCs caused the decomposition of the SiCw into Al4C3 platelets at the center region
of the fusion zone, as well as cavities along the outer region due to thermal expansion differences.
The post-weld tensile test results showed that the brittle weld zone lead to the degradation of strength,
and the 6061/20%SiCw MMC after welding would lose superplastic properties. There were some
differences between the 6061 alloy and MMC upon subjected to laser beam welding. The absorption
of laser energy by the MMC was better than that by the alloy; the absorption of laser energy increased
with increasing SiC content. The shape of the reinforced material could also influence the quantity of
Al4C3 formed. The total surface area of SiC particles was smaller than that of the SiC whiskers under
equal volume fraction, therefore more SiC whiskers were decomposed. In the wetting experiment, the
wettability and fluidity of molten material was observed to decrease with increasing SiC volume fraction
at the same temperature. The wettability could be improved at higher temperatures. For the
20%SiCw MMC, the wettability and fluidity could not be sufficiently improved even at a high
temperature of 1300¢J, which appeared to be the cause for the lack of feeding in the central fusion zone.
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