Global ETD Search

651	The role of twinning in the plastic deformation of alpha phase titanium Lainé, Steven John January 2017 (has links) The optimisation of compressor stage aerofoil and fan blade design remains an important area of titanium alloy research and development for aerospace gas turbines. Such research has important implications for critical and sensitive component integrity and efficiency. In particular, a better understanding of how deformation twinning interacts with microstructural features in titanium alloys is required, because such twinning facilitates plastic deformation at a higher strain rate than dislocations. To investigate this behaviour, commercial purity titanium and the titanium alloy Ti–6Al–4V were subjected to ballistic impact testing at room temperature with a high strain rate of 10³s⁻¹. In addition, a detailed analysis was conducted of three manufacturing processes of Ti–6Al–4V (wt. %) that are likely to cause deformation twinning: metallic shot peening, laser shock peening and deep cold rolling. The results presented in this thesis have furthered the understanding of the role of deformation twinning in the plastic deformation of α-phase titanium. Key findings of the research include the characterisation of deformation twinning types and the conditions that favour certain deformation twinning types. From the analysis of the ballistic testing of commercial purity titanium, the first definitive evidence for the existence of {112‾4} twinning as a rare deformation twinning mode at room temperature in coarse-grained commercial purity titanium is presented. In addition, the ballistic testing results of the Ti–6Al–4V alloy highlighted very different deformation twinning characteristics. Commercial purity titanium deformed plastically by a combination of {101‾2} and {112‾1} tensilve twinning and {112‾4} and {112‾2} compression twinning modes. By contrast, the deformation twinning of Ti–6Al–4V was limited to only the {101‾2} and {112‾1} tensile twinning modes. The two tensile deformation twinning types have very different morphologies in equiaxed fine grained Ti–6Al–4V. {112‾1} deformation twins span multiple grain boundaries and {101‾2} deformation twins reorient entire grains to a twinned orientation. This observation provides evidence for whole grain twinning of equiaxed fine grained Ti–6Al–4V by {101‾2} twinning. Grain boundary interactions between various deformation twinning types and alpha phase grain boundaries in commercial purity titanium and Ti–6Al–4V are reported and analysed. In commercial purity titanium {101‾2} as well as other deformation twinning types were observed interacting across alpha phase boundaries and higher angle alpha phase grain boundaries. The analyses of the manufacturing processes of Ti–6Al–4V highlight the very different dislocation and deformation twinning structures in surfaces processed by these techniques. A notable feature of material processed by laser shock peening is the almost complete absence of deformation twinning, contrasting with the frequent observation of extensive deformation twinning observed in the material processed by metallic shot peening and deep cold rolling. Therefore, the findings suggest that there is a strain rate limit above which deformation twinning is suppressed. The implications of this research are that a better understanding of the conditions that that favour certain deformation twinning types or propagation behaviours will enable more accurate plasticity modelling and better alloy design. This is important for the design and the manufacturing of titanium components and the high strain rate deformation to which titanium components in aerospace gas turbines can be subjected because of bird strike, foreign object debris ingestion or fan blade failures. 620.1
652	Medida do strain bidimensional do ventrículo esquerdo pré-implante percutâneo de endoprótese valvar aórtica: correlação com a evolução após o procedimento / Measurement of bidimensional strain of left ventricle before percutaneous implantation of aortic valve endoprosthesis: correlation with evolution after the procedure França, Lucas Arraes de 24 May 2017 (has links) INTRODUÇÃO: O implante transcateter de prótese valvar aórtica (TAVI) surge nos dias atuais como uma opção terapêutica para os pacientes sintomáticos portadores de estenose aórtica grave. Cerca de 200 mil pacientes em todo o mundo já foram submetidos ao TAVI. Não há grandes estudos que tenham avaliado a correlação prognóstica entre parâmetros ecocardiográficos antes do TAVI e eventos cardiovasculares a longo prazo. É relevante analisar se o strain pré-procedimento e outros parâmetros se comportam como fatores preditores independentes de eventos após o procedimento. MÉTODOS: Foram avaliados, de novembro de 2009 a outubro de 2016, 86 pacientes, submetidos a avaliação ecocardiográfica antes do TAVI e 30 dias após o procedimento, com análise do strain do ventrículo esquerdo pelo speckle tracking bidimensional e outros parâmetros ecocardiográficos. Esses pacientes foram acompanhados clinicamente e avaliados quanto aos desfechos: mortalidade global, mortalidade cardiovascular, classe funcional de insuficiência cardíaca e necessidade de reinternação cardiovascular. RESULTADOS: O strain global longitudinal pré-TAVI reduzido (valor absoluto) aumentou a chance de reinternação cardiovascular (OR: 0,87; 0,77 ±0,99; P= 0,038). A redução da relação E/e´ em 30 dias após o TAVI associou-se à queda da mortalidade global (OR: 0,97; 0,95 ±0,99; P = 0,006), bem como valores elevados pré procedimento dessa relação se associaram a maiores taxas de insuficiência cardíaca classe funcional III ou IV da New York Heart Association após a intervenção (OR: 1,08; 1±1,18; P = 0,049). CONCLUSÃO: Os resultados deste trabalho indicam que o strain global longitudinal pré-procedimento demonstrou ser um preditor de reinternação cardiovascular pós-intervenção a longo prazo. A relação E/e´ pré-procedimento apresentou correlação diretamente proporcional com o desenvolvimento de insuficiência cardíaca classe funcional III ou IV a longo prazo, assim como sua queda acentuada 30 dias após o procedimento correlacionou-se com menor mortalidade global. / INTRODUCTION: Transcatheter aortic valve replacement (TAVR) is a therapeutic option for symptomatic patients with severe aortic stenosis. Approximately 200,000 patients around the world have already undergone TAVR. No large studies have evaluated prognostic correlation between echocardiographic parameters before TAVR and long-term cardiovascular events. It is relevant to analyze strain before procedure and how other parameters work as independent predictors of events after the procedure. METHODS: A total of 86 patients were evaluated from November 2009 to October 2016. They underwent echocardiographic evaluation before TAVR and 30 days after the procedure with analysis of strain of the left ventricle by bidimensional speckle tracking and other echocardiographic parameters. Patients were followed clinically and evaluated in relation to outcomes: global mortality, cardiovascular mortality, functional class of heart failure and need for cardiovascular readmissions. RESULTS: Global longitudinal strain before reduced TAVR (absolute value) increased the chance of cardiovascular readmission (odds ratio: 0.87; 0.77 ± 0.99; p = 0.038). Reduction of E/e´ relationship 30 days after TAVI was associated with a drop in global mortality (odds ratio: 0.97; 0.95 ± 0.99; p = 0.006). In addition, high values for this relation before the procedure were associated with higher rates of New York Heart Association functional class III or IV heart failure after the intervention (odds ratio: 1.08; 1.00 ± 1.18; p = 0.049). CONCLUSIONS: Results of this study indicate that global longitudinal strain before the procedure is a predictor of cardiovascular readmission after TAVR. The E/e´relationship before the procedure presented a correlation directly proportional to the development of long-term functional class III or IV heart failure as well as its accentuated drop 30 days after the procedure was correlated with lower global mortality. strain Bidimensional Aortic Valve Stenosis Echocardiography Ecocardiografia/métodos Estenose da Valva Aórtica Função Ventricular Esquerda Left Ventricular Function strain Transcatheter Aortic Valve Replacement
653	Caracterização microestrutural e análise de tensões residuais pelo método do furo cego em tubo de seção quadrada com costura. / Microstructural characterization and hole-drilling method applied to residual stress analisys in a seamed square tube. André de Araújo Oliveira 27 August 2015 (has links) Fundação Carlos Chagas Filho de Amparo a Pesquisa do Estado do Rio de Janeiro / Tensões residuais são uma das principais causas de falhas em componentes mecânicos submetidos a processos de fabricação. O objetivo do trabalho foi medir as tensões residuais presentes em um tubo quadrado soldado por resistência elétrica de alta frequência e caracterizar microestruturalmente o seu material. Para a caracterização, foram utilizadas técnicas de microscopia óptica (MO), microscopia eletrônica de varredura (MEV) e análise química quantitativa. Para a medição das tensões residuais, foi utilizado o método do furo cego, baseado na norma ASTM E837-08, onde rosetas (strain-gages) são coladas à peça para medir as deformações geradas devido à usinagem de um pequeno furo no local de medição. As deformações foram associadas às tensões residuais através de equações baseadas na Lei de Hooke. A caracterização revelou uma microestrutura composta basicamente de ferrita e perlita, típica de aços com baixo teor de carbono, corroborando com a especificação fornecida pelo fabricante. As tensões residuais encontradas foram trativas e mostraram-se elevadas, com alguns valores acima do limite de escoamento do material. / Residual stresses are one of the main failure causes in mechanical components submitted to manufacture process. The aim of this work was to measure the residual stresses present in a seame welded tube welded using a high frequency electrical resistance and to microstruturally characterize its material. Optical microscopy (OM), scanning electron microscopy (SEM) and quantitative chemical analysis techniques were used for the characterization. The hole-drilling method was applied obeying the ASTM E837-08 norm to measure the residual stresses, where strain-gages are glued to the sample to measure the deformations caused due to the machining of a small hole in the measurement point. The deformations were linked to the residual stresses using the Hookes Law equations. The characterization basically showed a composite microstructure of ferrite and perlite, tipical in lowcarbon steels, as the specification supplied by the manufacturer. The residual stresses found were tensile and high, with some values above the material yield strength. Engenharia Mecânica Tensões residuais Furo cego Strain-gage Tubo com costura Mechanic Engineering Residual Stresses Hole-Drilling Strain-gage Seame welded tube ENGENHARIA MECANICA
654	A Latent Profile Analysis of Benefactor and Beneficiary Organizational Citizenship Behaviors toward Individuals Jang, Seulki 24 May 2018 (has links) Although organizational citizenship behaviors toward individuals (OCB-I) have been studied over decades, the beneficiary side of OCB-I has been understudied. The co-existing and interactive possibility of benefactor OCB-I and beneficiary OCB-I within individuals has been ignored. Therefore, this research adopted a person-centered approach and examined different profiles of benefactor OCB-I and beneficiary OCB-I on the basis of Grant’s (2013) theory. Results from Study 1 data (cross-sectional data) and Study 2 data (multiple waves of data) revealed the three profile groups: vigorous (high benefactor OCB-I and high beneficiary OCB-I), moderate (moderate benefactor OCB-I and moderate beneficiary OCB-I), and passive OCB-I groups (low benefactor OCB-I and low beneficiary OCB-I). Also, the three profiles were significantly differentiated by positive affect, other-oriented empathy, task interdependence, and job satisfaction. Furthermore, the vigorous OCB-I group showed the lowest psychological strain while the passive OCB-I group showed the lowest physical strain. The results offer theoretical implications for Grant’s (2013) theory, OCB-I and employee health research, and equity theory in comparison to conservation of resources theory. In addition, practical implications for enhancing employee health are discussed. organizational citizenship behavior benefactor beneficiary conscientiousness positive affect other-oriented empathy task interdependence job satisfaction physical strain psychological strain latent profile analysis person-centered approach Psychology
655	Contribution à l'identification du comportement des matériaux à partir d'essais de micro-impact répétés / Contribution in the identifiaction of material behaviour from repeated micro-impact testing Al Baida, Halim 20 November 2015 (has links) La loi de comportement est un élément essentiel de la caractérisation mécanique des matériaux. Pour pouvoir identifier le comportement d'un matériau, il existe plusieurs méthodes expérimentales (traction statique, barres d'Hopkinson) qui permettent d'obtenir des lois mécaniques applicables dans des conditions bien définies et le plus souvent sur des matériaux massifs homogènes. La plupart de ces essais sont de plus couteux et exigent le plus souvent des géométries d'échantillons spécifiques. L'utilisation de ces tests reste limitée et ne permet pas d'analyser tous les types de matériaux comme les revêtements ou les matériaux poreux... par exemple. Or ces matériaux eux aussi nécessitent aujourd'hui une connaissance fine de leurs propriétés afin de permettre une simulation au plus juste de leur comportement en service. Les lois de comportement établies à l'échelle d'un matériau massif ne répondent également que partiellement aux besoins de modélisation de certains procédés detraitement mécanique de surface comme par exemple le grenaillage, car elles ne prennent pas en compte les effets de la surface. L'objectif principal de cette étude est de développer une méthode à la fois rapide et facile pour pouvoir identifier le comportement local des matériaux sous condition dynamique, afin de pouvoir caractériser les surfaces soumises à des sollicitations de type chocs. Pour atteindre cet objectif, une méthode inverse a été développée pour identifier le comportement des matériaux à l'aide d'une combinaison d'approche expérimentale et numérique d'essais d'impacts répétés. Les lois decomportements obtenues à l'aide de cette méthode inverse restent sujettes à caution car difficile à comparer à des valeurs de référence par manque de données dans la littérature. Pour cette raison ces lois seront ensuite comparées avec une méthode analytique inspirée de la théorie de l'indentation. Afin de valider l'efficacité de la méthode inverse et de la méthode analytique, des essais numériques à l'aveugle ont été menés, ensuite des applications sur des matériaux modèles et industriels ont été réalisées pour déterminer les limites des méthodes. / The behavior law is an essential element of the mechanical characterization of materials. To identify the material behavior several experimental methods can be used such as (static traction, Hopkinson bars ...) that allow to obtain mechanical laws applied under well-defined conditions, i.e. on homogeneous and bulk materials. However, do to the rising cost of these tests and their specific sample geometry, their use is limited and does not allow to probe and measure all types of materials (like coatings or porous materials....). Moreover, a broad knowledge of their properties allows a more accurate simulation of their behavior in working process. Behavior laws appropriate for bulk material do not always fit to process modeling shot peening, due to surface deformation. The main objective of this study is to develop a simple, rapid method for identifying the local behavior of materials under dynamic conditions, in order to characterize surfaces under impact loading. An inverse method has been developed to identify the behavior of materials using a combination of numerical and experimental approaches of repeated impact tests. The behavior laws obtained by the inverse method must be further investigated due to missing comparison data in literature. A comparison with an analytical method based on the theory of indentation must be carried out for more accuracy. In order to validate the efficiency of the inverse method and the analytical method, numerical blind tests wereconducted, then applications on industrial and ideal materials have been carried out to determine the limits. Loi de comportement Grande vitesse de déformation Impacts répétés Méthode inverse Grenailleage Revêtement abradable Stress-strain curve High strain rate Repeated impacts Inverse method Shot-peeninfg Abradable coating 620.1
656	Biological and Molecular Characteristics of Microorganism-Stimulated Defence Response in <i>Lycopersicon esculentum</i> –L Attitalla, Idress H. January 2004 (has links) <p>Microorganisms, including two fungi, <i>Phytophthora cryptogea</i> and <i>Fusarium oxysporum</i> strain Fo-(IMI 386351), and one bacterium, <i>Pesudomonas</i> sp. strain MF30, were tested for their abilities to stimulate plant defence responses in tomato (<i>Lycopersicon esculentum</i> –L.) and to serve as effective biocontrol agents (<b>Bs</b>). The study included <i>in vivo</i> and <i>in vitro</i> characterization of biological attributes of the microorganisms, pertaining to their abilities to stimulate plant immunity against a fungal pathogen, <i>Fusarium oxysporum</i> f. sp. <i>lycopersici</i> (Fol), the causal agent of tomato wilt disease. Using <i>Lycopersicon esculentum</i> –L. as a model plant for examining some fundamental elements of the plant-microorganism interaction, the study reveals and clarifies some aspects of the close association and the complexity of such systems.</p><p>For each <b>B</b>, the results revealed a <b>B</b>-distinct plant-microorganism interaction, which included systemic induced resistance (SIR). A phylogenetic analyses of the partial sequences of two Fo-(IMI 386351) genes, a mitochondrial small subunit ribosomal DNA (mtSSU rDNA) and the nuclear translation elongation factor 1α (EF-1α), provided phylogenetic trees confirming that Fo-(IMI 386351) might be a member of Fol or of <i>F. oxysporum</i> f. sp. <i>melonis</i>, which have polyphyletic evolutionary origins. RFLP analysis (mtDNA), suggested that Fo-(IMI 386351) probably belongs to Fol. For routine and accurate differentiation between two morphologically indistinguishable <i>F. oxysporum formae speciales</i> strains, <i>F. oxysporum</i> f. sp. <i>lycopersici</i> and <i>F. oxysporum</i> f. sp. <i>radicis-lycopersici</i>, a molecular method (mtDNA RFLP analysis) was developed, and its usefulness for such differentiation was compared with that of two other methods: isozyme analysis and an osmotic method, revealed with high performance liquid chromatography (HPLC). The HPLC-spectra of Fo-(IMI 386351) had an extra peak for the two tested fractions, indicating that activation of the observed plant defence mechanism could have been at least partially the result of one of the products of the eliciting microbe. Preliminary results obtained by nuclear magnetic resonance spectrometry of those fractions suggest that the extra peak probably represents an oligosaccharide, which may have acted as a mobile signal and triggered the plant defence mechanisms.</p><p>We concluded that (1) our three tested microorganisms are able to stimulate plant defence mechanisms by triggering SIR (plant immunity), (2) the complexity and elaborateness of evolved plant-microbe interactions involving plant defence can, at least in some cases, be observed and studied in the laboratory, and (3) molecular tools can be a powerful means for identifying fungal strains and for clarifying their taxonomical relationships.</p> Biology Phytophthora cryptogea Fusarium oxysporum strain IMI 386351 Pseudomonas sp. strain MF30 plant defence phylogenetic analysis differentiation methods Biologi Biology Biologi
657	Sustainable Composite Systems for Infrastructure Rehabilitation De Caso y Basalo, Francisco Jose 15 December 2010 (has links) The development of composite materials by combining two or more constituents with improved mechanical properties, when compared to either of the constituents alone, has existed since biblical times when straw or horse hair was mixed with clay or mud to produce bricks. During the second half of the twentieth century, modern composites known as fiber reinforced polymers (FRP) - consisting of a reinforcing phase (fibers) embedded into a matrix (polymeric resin or binder) - were developed to meet the performance challenges of space exploration and air travel. With time, externally-bonded FRP applications for strengthening of reinforced concrete (RC) structures gained popularity within the construction industry. To date, the confinement of RC columns using FRP systems is a convenient and well established solution to strengthen, repair and retrofit structural concrete members. This technology has become mainstream due to its cost effectiveness, and relative ease and speed of application with respect to alternative rehabilitation techniques such as steel or concrete jackets. However, significant margins exist to advance externally-bonded composite rehabilitation technologies by addressing economic, technological, and environmental issues posed by the use of organic polymer matrices, some of which are addressed in this dissertation. Articulated in three studies, the dissertation investigates the development of a sustainable, reversible, and compatible fiber reinforced cement-based matrix (FRC) composite system for concrete confinement applications in combination with a novel test method aimed at characterizing composites under hydrostatic pressure. Study 1 develops and characterizes a FRC system from different fiber and inorganic matrix combinations, while evaluating the confinement effectiveness in comparison to a conventional FRP system. The feasibility of making the application reversible was investigated by introducing a bond breaker between the concrete substrate and the composite jacket in a series of confined cylinders. The prototype FRC system produced a substantial increase in strength and deformability with respect to unconfined cylinders. A superior deformability was attained without the use of a bond breaker. The predominant failure mode was loss of compatibility due to fiber-matrix separation, which points to the need of improving fiber impregnation to enable a more efficient use of the constituent materials. Additionally semi-empirical linear and nonlinear models for ultimate compressive strength and deformation in FRC-confined concrete are also investigated. Study 2 compares through a life cycle assessment (LCA) method two retrofitting strategies: a conventional organic-based, with the developed inorganic-based composite system presented in Study 1, applied to concrete cylinders by analyzing three life cycle impact indicators: i) Volatile Organic Compound (VOC) emissions, ii) embodied energy, and, iii) carbon foot print. Overall the cement-based composite provides an environmentally-benign alternative over polymer-based composite strengthening system. Results also provide quantitative information regarding the environmental and health impacts to aid with the decision-making process of design when selecting composite strengthening systems. Study 3 is divided into two parts, Part A presents the development of a novel "Investigation of Circumferential-strain Experimental" (ICE) methodology for characterization of circumferential (hoop) strain of composite laminates, while Part B uses the experimental data reported in Part A to explicitly evaluate the effect of FRP jacket curvature and laminate thickness on strain efficiency. Results showed that the proposed ICE methodology is simple, effective and reliable. Additionally, the ultimate circumferential strain values increased with increasing cylinder diameter, while being consistently lower when compared to similar flat coupon specimens under the same conditions. The ultimate FRP tensile strain was found to be a function of the radius of curvature and laminate thickness, for a given fiber ply density and number. The effect of these findings over current design guidelines for FRP confined concrete was also discussed. Circumferential Tensile Strain Confinement Composites Hoop Strain Hydrostatic Pressure Ice Test Method Water Expansion Basalt Fibers Cement-based Matrix Confinement Glass Fibers Inorganic Matrix Reversibility Life Cycle Assessment
658	Pressure Sensor Development Using Hard Anodized Aluminum Diaphragm And Thin Film Strain Gauges Rajendra, A 04 1900 (has links) The sensor is a device that converts a form of energy concerning which the information is sought, called the measurand, to a form (electrical) in which it can be usefully processed or interpreted. Sensors rely on physical or chemical phenomena and materials where those phenomena appear to be useful. Those phenomena may concern the material itself or its geometry. Hence, the major innovations in sensors come from new materials, new fabrication techniques or both. Normally, thin film sensors are realized by depositing a sensing film on a suitable substrate. There could be many combination of metals and insulating materials being deposited depending upon the application or sensing requirements. In general, sensors for various applications are fabricated using a variety of liquid phase technologies (also called as wet methods) and gas phase technologies (also called as dry methods) of deposition. Hence sensor fabrication technology requires various combination of processing technologies and newer materials. In the present work, an attempt is made to design and fabricate a thin film based pressure sensor using a combination of wet and dry deposition techniques. The diaphragm, used for sensing the pressure is coated with a hard anodic coating (Al2O3) using a wet technology, viz. pulse hard anodizing technique, for electrical insulation requirement. The piezo-resistive strain sensing films were deposited onto this coating by dry method, namely, DC Magnetron sputtering technique.. Chapter 01 gives a brief overview of sensors, their classification, principles of sensing,characteristics, materials used in the fabrication of sensors like conductors and insulators, the components of a sensor. Chapter 02 gives brief information about various techniques of depositions viz., liquid phase technologies (wet methods) and vapour phase technologies (dry methods) used to fabricate the sensors. Also, information regarding the coating property evaluation and coating characterization techniques is included. The chapter 03 presents a detailed account of work carried out to obtain an electrically insulating layer by the development of pulse hard anodizing process for aluminum alloy diaphragm, necessary process optimization and testing. The details related to the development, fabrication and testing of thin film based pressure sensors using aluminum alloy diaphragm with hard anodic coating are presented in Chapter 04. The thin film strain gauges were deposited using DC magnetron sputtering technique. The information about mask design, deposition process parameters, calibration etc is also included. Chapter 05 provides summary of the work carried out and conclusions. The scope of carrying out further work is also outlined. Pressure Sensors Pressure - Measuring Instruments Pressure Sensors - Fabrication Sensors Anodization Sensor Fabrication Technology Strain Sensor Strain Gauges Hard Anodising Sensorics Aluminum Diaphragm Instrumentation
659	Biological and Molecular Characteristics of Microorganism-Stimulated Defence Response in Lycopersicon esculentum –L Attitalla, Idress H. January 2004 (has links) Microorganisms, including two fungi, Phytophthora cryptogea and Fusarium oxysporum strain Fo-(IMI 386351), and one bacterium, Pesudomonas sp. strain MF30, were tested for their abilities to stimulate plant defence responses in tomato (Lycopersicon esculentum –L.) and to serve as effective biocontrol agents (Bs). The study included in vivo and in vitro characterization of biological attributes of the microorganisms, pertaining to their abilities to stimulate plant immunity against a fungal pathogen, Fusarium oxysporum f. sp. lycopersici (Fol), the causal agent of tomato wilt disease. Using Lycopersicon esculentum –L. as a model plant for examining some fundamental elements of the plant-microorganism interaction, the study reveals and clarifies some aspects of the close association and the complexity of such systems. For each B, the results revealed a B-distinct plant-microorganism interaction, which included systemic induced resistance (SIR). A phylogenetic analyses of the partial sequences of two Fo-(IMI 386351) genes, a mitochondrial small subunit ribosomal DNA (mtSSU rDNA) and the nuclear translation elongation factor 1α (EF-1α), provided phylogenetic trees confirming that Fo-(IMI 386351) might be a member of Fol or of F. oxysporum f. sp. melonis, which have polyphyletic evolutionary origins. RFLP analysis (mtDNA), suggested that Fo-(IMI 386351) probably belongs to Fol. For routine and accurate differentiation between two morphologically indistinguishable F. oxysporum formae speciales strains, F. oxysporum f. sp. lycopersici and F. oxysporum f. sp. radicis-lycopersici, a molecular method (mtDNA RFLP analysis) was developed, and its usefulness for such differentiation was compared with that of two other methods: isozyme analysis and an osmotic method, revealed with high performance liquid chromatography (HPLC). The HPLC-spectra of Fo-(IMI 386351) had an extra peak for the two tested fractions, indicating that activation of the observed plant defence mechanism could have been at least partially the result of one of the products of the eliciting microbe. Preliminary results obtained by nuclear magnetic resonance spectrometry of those fractions suggest that the extra peak probably represents an oligosaccharide, which may have acted as a mobile signal and triggered the plant defence mechanisms. We concluded that (1) our three tested microorganisms are able to stimulate plant defence mechanisms by triggering SIR (plant immunity), (2) the complexity and elaborateness of evolved plant-microbe interactions involving plant defence can, at least in some cases, be observed and studied in the laboratory, and (3) molecular tools can be a powerful means for identifying fungal strains and for clarifying their taxonomical relationships. Biology Phytophthora cryptogea Fusarium oxysporum strain IMI 386351 Pseudomonas sp. strain MF30 plant defence phylogenetic analysis differentiation methods Biologi Biology Biologi
660	VARIABLE-COMPLIANCE-TYPE CONSTITUTIVE MODEL FOR METHANE HYDRATE BEARING SEDIMENT Miyazaki, Kuniyuki, Masui, Akira, Haneda, Hironori, Ogata, Yuji, Aoki, Kazuo, Yamaguchi, Tsutomu 07 1900 (has links) In order to evaluate a methane gas productivity of methane hydrate reservoirs, it is necessary to develop a numeric simulator predicting gas production behavior. For precise assessment of long-term gas productivity, it is important to develop a mathematical model which describes mechanical behaviors of methane hydrate reservoirs in consideration of their time-dependent properties and to introduce it into the numeric simulator. In this study, based on previous experimental results of triaxial compression tests of Toyoura sand containing synthetic methane hydrate, stress-strain relationships were formulated by variable-compliance-type constitutive model. The suggested model takes into account the time-dependent property obtained from laboratory investigation that time dependency of methane hydrate bearing sediment is influenced by methane hydrate saturation and effective confining pressure. Validity of the suggested model should be verified by other laboratory experiments on time-dependent behaviors of methane hydrate bearing sediment. methane hydrate triaxial compression test stress-strain curve strength elastic modulus strain rate time dependency constitutive equation ICGH 2008

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