Global ETD Search

21	Caractérisation de l’endommagement à haute température d’aciers ferritiques renforcés par dispersion de nano-oxydes (ODS) / Characterisation of high-temperature damage mechanisms of oxide dispersion strengthened (ODS) ferritic steels Salmon legagneur, Hubert 26 January 2017 (has links) Le développement des réacteurs nucléaires de quatrième génération nécessite l’amélioration des matériaux de gainage combustible, afin de résister à des températures, des contraintes et des doses d’irradiation plus élevées. Le renforcement des aciers ferritiques, peu sensibles au gonflement sous irradiation, par de nano-oxydes permet d’obtenir une bonne résistance mécanique à haute température. Cependant, les études publiées sur ces matériaux dans la littérature ouverte mettent en évidence un comportement inusuel en fluage : une forte anisotropie en résistance à l’écoulement comme en durée de vie, une faible ductilité et un stade de fluage tertiaire quasiment inexistant. L’origine de ces phénomènes, encore mal connue, est abordée dans ces travaux de thèse.Trois nuances d’acier ODS à 14 %Cr ont été étudiées. Leur comportement macroscopique est similaire à celui des nuances de la littérature ouverte. La rupture en fluage des éprouvettes lisses procède par amorçage et propagation d’une fissure depuis la surface latérale, suivis d’une déchirure ductile lorsque le facteur d’intensité des contraintes critique est atteint en fond de fissure. Les propriétés de traction et de fluage ne sont cependant pas notablement affectées par l’environnement chimique des éprouvettes. Les essais de fissuration à 650°C montrent une faible valeur du facteur d’intensité des contraintes à l’amorçage et un mécanisme de propagation de fissure intergranulaire, préférentiellement au travers des zones à plus petits grains du matériau, qui explique en partie l’anisotropie de la résistance à la rupture à haute température. L’utilisation d’éprouvettes entaillées a permis d’étudier l’impact des paramètres de premier ordre (vitesse de déformation, température, triaxialité des contraintes) sur l’amorçage et la propagation stable de fissures intergranulaires macroscopiques depuis le cœur des éprouvettes. Ces essais ont permis de révéler des cavités formées à haute température mais non exposées à l’environnement. Ces cavités révèlent une forte réactivité chimique des surfaces libres (internes) du matériau. Les essais réalisés mettent également en évidence différentes natures de joints entre les petits grains, présentant des modes d’endommagement différents. L’origine de ces différentes natures de joints de grains reste à explorer. / The development of the fourth generation of nuclear power plants relies on the improvement of cladding materials, in order to achieve resistance to high temperature, stress and irradiation dose levels. Strengthening of ferritic steels through nano-oxide dispersion allows obtaining good mechanical strength at high temperature and good resistance to irradiation induced swelling. Nonetheless, studies available from open literature evidenced an unusual creep behavior of these materials: high anisotropy in time to rupture and flow behavior, low ductility and quasi-inexistent tertiary creep stage. These phenomena, and their still unclear origin are addressed in this study.Three 14Cr ODS steels rods have been studied. Their mechanical behavior is similar to those of other ODS steels from open literature. During creep tests, the specimens fractured by through crack nucleation and propagation from the lateral surfaces, followed by ductile tearing once the critical stress intensity factor was reached at the crack tip. Tensile and creep properties did not depend on the chemical environment of specimens. Crack propagation tests performed at 650°C showed a low value of the stress intensity factor necessary to start crack propagation. The cracks followed an intergranular path through the smaller-grained regions, which partly explains the anisotropy of high temperature strength.Notched specimens have been used to study the impact of the main loading parameters (deformation rate, temperature, stress triaxiality) on macroscopic crack initiation and stable propagation, from the central part of the specimens.These tests allowed revealing cavities created during high temperature loading, but unexposed to the external environment. These cavities showed a high chemical reactivity of the free surfaces in this material. The performed tests also evidenced different types of grain boundaries, which presented different damage development behaviors, probably due to differences in local chemistry. The nature of these grains boundaries and their origin are still to be explained. Aciers ODS à 14%Cr Fluage Endommagement intergranulaire Fissuration Effets d'environnement 14 Cr ODS steels Creep Intergranular damage Cracking Chemical environment 620.11
22	Impactos e desafios da construção civil brasileira para os Objetivos de Desenvolvimento Sustentável / Impacts and challenges of the brazilian civil construction for the Sustainable Development Goals Tamiris Capellaro Ferreira 23 August 2018 (has links) O desenvolvimento sustentável tem sido um grande desafio global e as empresas têm grande participação nesse processo, uma vez que movimentam a economia e geram empregos, consomem matérias-primas e poluem o meio ambiente. As grandes corporações são as que causam os maiores danos, mas podem contribuir para alcançar os Objetivos de Desenvolvimento Sustentável (ODS) e suas prioridades globais. A indústria da construção civil, especificamente, desempenha importante papel econômico e é responsável por um consumo significativo de recursos naturais e por um impacto ambiental bastante expressivo. Coibidas por pressões externas, de regulamentações, investidores e outras partes interessadas, as empresas do setor da construção civil têm feito seu relato de sustentabilidade de acordo com o modelo da Global Reporting Iniciative (GRI), que incentiva as empresas a definirem quais questões relativas à sustentabilidade são mais relevantes para sua cadeia de valor, por meio do princípio de \"materialidade\". O principal objetivo deste trabalho foi identificar como a construção civil brasileira impacta positiva ou negativamente os Objetivos de Desenvolvimento Sustentável (ODS), considerando os segmentos das construtoras, fábricas e cimenteiras. Um grupo de empresas representantes da construção civil brasileira foi selecionado para o estudo, que se dividiu em três etapas, sendo a primeira uma revisão sistemática de literatura a respeito dos impactos do setor da construção civil; a segunda uma análise de dados secundários, que são os relatórios de sustentabilidade das empresas estudadas; e a terceira uma etapa de entrevistas com especialistas do setor da construção civil. Na segunda etapa, com base nas matrizes individuais das empresas, foram elaboradas matrizes de materialidade unificadas para os segmentos do setor. Elas foram, então, validadas pelos especialistas da construção civil e comparadas com os dados encontrados na revisão sistemática de literatura. Após a validação das matrizes, conseguiu-se uma relação dos ODS que são impactados positiva ou negativamente pelos principais aspectos materiais do setor. Identificou-se que os principais ODS impactados positivamente são os de número 3, 4, 8 e 9; e os principais ODS impactados negativamente são os ODS 5, 6, 7, 10, 11, 12, 13, 15 e 16. Isso indica que apenas 4, dentre os 17 ODS não são diretamente impactados pelos aspectos materiais do setor da construção civil brasileira. Sendo assim, foram feitas sugestões para mitigação dos impactos causados que incluem, principalmente, medidas governamentais, em relação à regulamentação e fiscalização; e empresariais, a respeito do modelo de gestão. Tendo como base o Guia SDG Compass, as empresas poderão desenvolver uma estratégia de gestão que tenha o propósito de colocar a sustentabilidade no centro da estratégia empresarial. Desta forma, as empresas poderão desenvolver um modelo de gestão voltado para o futuro e para o alcance dos ODS e, assim, melhorar o diálogo entre todas as partes interessadas. Além disso, este trabalho agrega conhecimento teórico ao avançar na exploração da literatura e da pesquisa sobre os ODS, uma vez que eles, tendo sido lançados no final de 2015, ainda se tratam de um campo recente de pesquisa. O trabalho também avança no delineamento do panorama em que o setor de construção civil brasileiro se encontra frente à sustentabilidade organizacional, aos relatos de sustentabilidade com base nas diretrizes da GRI e ao desenvolvimento de matrizes de materialidade. / Sustainable development has been a major global challenge and companies have a strong stake in this process as they move the economy and generate jobs, consume raw materials and pollute the environment. Large corporations are the ones causing the greatest damage, but they can contribute to achieving the Sustainable Development Goals (SDG) and their global priorities. The construction industry, specifically, plays an important economic role and is responsible for a significant consumption of natural resources and a very significant environmental impact. Constrained by external pressures, regulations, investors and other stakeholders, companies in the construction industry have made their sustainability report according to the Global Reporting Initiative (GRI) model, which encourages companies to define which issues are more relevant to their value chain, it is the principle of \"materiality\". The main objective of this work was to identify how Brazilian civil construction positively or negatively impacts the Sustainable Development Goals (SDG), considering the segments of construction companies, factories and cement companies. A group of companies representing Brazilian civil construction was selected for the study, which was divided into three stages, the first being a systematic review of the literature on the impacts of the civil construction sector; the second an analysis of secondary data, which are the sustainability reports of the companies studied; and the third a stage of interviews with specialists in the construction industry. In the second stage, based on the individual corporate matrices, unified materiality matrices were elaborated for the segments of the industry. They were then validated by construction specialists and compared with the data found in the systematic literature review. After the validation of the matrices, it could be made a list of the SDG that are positively or negatively impacted by the main material aspects of the sector. It was identified that the main positively impacted SDG are those of numbers 3, 4, 8 and 9; and the main SDG negatively impacted are SDG 5, 6, 7, 10, 11, 12, 13, 15 and 16. This indicates that only 4 of the 17 SDG are not directly impacted by the material aspects of the Brazilian construction industry. Thus, suggestions were made to mitigate the impacts caused, which mainly include governmental measures, in relation to regulation and inspection; and business, regarding the management model. Based on the SDG Compass Guide, companies can develop a management strategy that aims to put sustainability at the center of business strategy. In this way, companies will be able to develop a future-oriented management model and to achieve the SDG and thus improve the dialogue among all stakeholders. In addition, this work adds theoretical knowledge in advancing the exploration of literature and SDG research, since they were launched at the end of 2015 and are still a recent field of research. The work also advances in the outline of the scenario in which the Brazilian civil construction sector faces organizational sustainability, sustainability reports based on GRI guidelines and the development of materiality matrices.
23	Caractérisation et modélisation du comportement mécanique à haute température des aciers ferritiques renforcés par dispersion d'oxydes / Experimental study and modelling of the high temperature mechanical behaviour of oxide dispersion strengthened ferritic steels Steckmeyer, Antonin 28 November 2012 (has links) Le renforcement par dispersion d'oxydes nanométriques permet, d'une manière générale, d'améliorer la résistance mécanique des matériaux métalliques. Il autorise donc une augmentation de leur température maximale d'utilisation. De nombreux travaux de recherche sont menés au Commissariat à l'Énergie Atomique et aux Énergies Alternatives sur les aciers ODS, pour Oxide Dispersion Strengthened steels. S'inscrivant dans le cadre du développement du nucléaire civil de quatrième génération, ces travaux ont pour but de qualiﬁer un matériau pouvant être utilisé en tant que matériau de gainage combustible à une température de 650℃. Ce travail de thèse a pour objectif d'améliorer la compréhension des propriétés mécaniques des aciers ODS, en cherchant d'une part à caractériser et à modéliser leur comportement en ﬂuage, et d'autre part à caractériser leur nisotropie de comportement et à en identiﬁer l'origine. Pour cela, de nombreux essais mécaniques ont été eﬀectués entre 20℃ et 900℃ sur une nuance d'acier ODS ferritique de composition nominale Fe-14Cr1W0,26Ti + 0,3Y2O3 . Cette nuance a été élaborée au CEA, par mécanosynthèse puis extrusion à chaud, sous la forme d'une barre ronde. Les résultats obtenus démontrent la grande résistance mécanique à haute température de l'acier ODS étudié. Ils mettent également en évidence une forte dépendance de la ductilité et de la résistance du matériau vis-à-vis de la vitesse de sollicitation. Sur la base des diﬀérentes caractérisations expérimentales réalisées, un modèle de comportement macroscopique uniaxial a été développé. S'appuyant sur la description de trois écrouissages cinématiques et d'un terme de restauration statique, ce modèle démontre une capacité remarquable à reproduire le comportement mécanique du matériau en traction, en fatigue, en ﬂuage et en relaxation. Par ailleurs, la caractérisation de l'anisotropie mécanique de la nuance d'acier ODS étudiée s'avère dépendre de la température. Deux modélisations polycristallines diﬀérentes ont été mises en place aﬁn de reproduire cette anisotropie de comportement à partir des textures cristallographique et morphologique du matériau. Le désaccord observé entre les prévisions de ces modèles et les résultats expérimentaux conduit à formuler d'autres hypothèses sur la déformation des aciers ODS. / The strength of metals, and therefore their maximum operating temperature, can be improvedby oxide dispersion strengthening (ODS). Numerous research studies are carried out at the French Atomic Energy Commission (CEA) in order to develop a cladding tube material for Gen IV nuclear power reactors. Oxide dispersion strengthened steels appear to be the most promising candidates for such application, which demand a minimum operating temperature of (650℃). The present dissertation intends to improve the understanding of the mechanical properties of ODS steels, in terms of creep lifetime and mechanical anisotropy. The methodology of this work includes mechanical tests between room temperature and 900℃ as well as macroscopic and polycrystalline modelling. These tests are carried out on a Fe-14Cr1W0,26Ti + 0,3Y2O3 ODS ferritic steel processed at CEA by mechanical alloying and hot extrusion. The as-received material is a bar with a circular section. The mechanical tests reveal the high mechanical strength of this steel at high temperature. A strong inﬂuence of the strain rate on the ductility and the mechanical strength is also observed. A macroscopic mechanical model has been developed on the basis of some experimental statements such as the high kinematic contribution to the ﬂow stress. This model has a strong ability to reproduce the mechanical behaviour of the studied material. Two diﬀerent polycristalline models have also been developed in order to reproduce the mechanical anisotropy of the material. They are based on its speciﬁc grain morphology and crystallographic texture. The discrepancy between the predictions of both models and experimental results reveal the necessity to formulate alternate assumptions on thedeformation mechanisms of ODS ferritic steels. Acier ODS Gainage combustible Fluage Haute température Modélisation polycristalline Anisotropie ODS steel Fuel cladding Creep High temperature Polycrystalline modelling Mechanical anisotropy
24	Étude des évolutions microstructurales lors de la transformation à chaud d’aciers ferritiques renforcés par dispersion d’oxydes / Study of the microstructure evolution of ferritic stainless ODS steels during hot working Karch, Abdellatif 09 December 2014 (has links) L'élaboration des aciers ODS fait appel à une étape de consolidation par filage à chaud. Les propriétés très anisotropes de ces matériaux à l'état filé, notamment les nuances purement ferritiques (>12% Cr), nécessitent une meilleure compréhension des effets du procédé de filage sur la microstructure. Ainsi, ce travail de thèse a pour objectif principal d'étudier les évolutions de la microstructure lors de la transformation à chaud des aciers inoxydables ODS ferritiques, et plus globalement de comprendre le comportement de ces matériaux sous sollicitation mécanique à haute température. Pour cela, des essais de filage interrompus et des essais thermomécaniques de torsion et de compression à chaud (1000-1200°C) ont été réalisés sur plusieurs aciers ferritiques à 14% de Cr présentant différents taux de renfort en titane et en yttrium. Les microstructures obtenues après déformation ont été caractérisées par EBSD.L'ensemble des analyses microstructurales effectuées montre que la mise en forme à chaud des aciers ferritiques par filage s'accompagne d'une recristallisation dynamique de type continue. Après formation des sous-joints par restauration, leurs désorientations continuent à croître, et ceux-ci se transforment graduellement en joints de grains au cours de la déformation. La cinétique de ce mécanisme semble néanmoins fortement influencée par les caractéristiques de la précipitation présente dans le matériau ; la recristallisation devenant moins complète lorsque les précipités sont plus fins et plus nombreux. En plus du taux de renfort, l'étude de la déformation de ces nuances en torsion et en compression dans des conditions proches de celles observées en filage révèle également une forte influence de la température sur leur comportement. Les microstructures de déformation présentent une évolution d'autant plus importante que la température et/ou le taux de renfort sont limités. À 1000°C, les évolutions observées indiquent la présence de la recristallisation dynamique continue. En revanche, lorsque l'on augmente la température et/ou le taux de renfort, la déformation s'accompagne d'une évolution limitée de la microstructure, notamment en torsion où un endommagement sévère aux niveaux des joints de grains est observé. Dans ce cas, les résultats sont interprétés par un mécanisme d'accommodation de la déformation au voisinage des joints de grains. Les paramètres rhéologiques calculés à partir de ces essais mécaniques confirment la tendance à une faible activité plastique au sein des grains dans les nuances renforcées. / The production of ODS steels involves a powder consolidation step usually using the hot extrusion (HE) process. The anisotropic properties of extruded materials, especially in the ODS ferritic grades (>wt%12Cr), need a better understanding of the metallurgical phenomena which may occur during HE and lead to the observed microstructure. The hot working behavior of these materials is of particular interest. The methodology of this work includes the microstructure analysis after interrupted hot extrusion, hot torsion and hot compression (1000-1200°C) tests of ferritic steels with 14%Cr and different amounts in Ti and Y2O3.The microstructure evolution during hot extrusion process is associated with continuous dynamic recrystallization (CDRX). It leads to the creation of new grains by the formation of low angle boundaries, and then the increase of their misorientation under plastic deformation. The investigations highlight also the role of precipitation on the kinetics of this mechanism; it remains incomplete in the presence of fine and dense nanoprecipitates. After hot deformation in torsion and compression, it is noticed that both precipitates and temperature deformation have a significant impact on the deformation mechanisms and microstructure evolution. Indeed, the CDRX is dominant when temperature and amount of reinforcement are limited. However, when they are increased, limited microstructure evolution is observed. In this case, the results are interpreted through a mechanism of strain accommodation at grain boundaries, with low dislocation activity in the bulk of the grains. Aciers ODS Filage à chaud Essais thermomécaniques Recristallisation dynamique Joints de grains EBSD ODS steels Hot extrusion Thermomecanical tests Dynamic recrystallization Grain boundaries EBSD 620
25	Modélisation multi-échelle de l'interaction entre les éléments d'alliages et les lacunes dans les aciers ferritiques / Multiscale modeling of interactions between vacancies and alloying elements in ferritic alloys Barouh, Caroline 09 November 2015 (has links) Cette these est consacree a l’etude des interactions entre les lacunes et les elements d'alliages d’un acier renforcé par une dispersion de nano-oxydes (ODS (Oxide Dispersion Strengthened)), matériau de structure envisagé pour les réacteurs nucléaires du futur. Ces travaux ont été réalisés pour un système simplifié constitué d'une matrice de fer α contenant de l'oxygène, de l'yttrium, du titane et des lacunes à partir de modélisations multi-échelles. Nous nous sommes attachés en particulier au rôle des lacunes formées en exces au cours de l’elaboration de ces aciers. La stabilite et la mobilite des amas lacunes-solutés ont été examinées à partir de calculs ab initio, d’une part, pour l’oxygene qui a ete compare au carbone et a l’azote, solutes interstitiels egalement presents dans les aciers, et d’autre part, pour le titane et l’yttrium, solutes substitutionnels. Les trois solutés interstitiels ont révélé un comportement tres analogue. L’impact de la mobilité des amas lacunes-solutes a ete etabli en utilisant un modele en dynamique d’amas parametre sur nos résultats ab initio. Il a été ainsi démontré que, en sursaturation de lacunes, la diffusion des solutés interstitiels peut etre acceleree, alors que celle des solutes substitutionnels ne l’est pas forcement. Ces conclusions se sont averees coherentes avec des observations experimentales existantes. L’ensemble de ces résultats ont ensuite été exploité pour améliorer notre compréhension des mécanismes de formation des nanoparticules. Il est apparu que la diffusion relative de l’yttrium et du titane, ainsi que le nombre de noyaux potentiels pour former des nanoparticules dépendent de la concentration en lacunes dans le système. / This PhD thesis is devoted to the study of interactions between vacancies and alloying elements in Oxide Dispersion Strengthened (ODS) steels, which are promising candidate materials for future nuclear reactors. This work is based on multiscale modeling of a simplified system composed by oxygen, yttrium and titanium atoms and vacancies in an α-iron lattice. We particularly focused on the role of vacancies which are created in excess during the fabrication of these steels. The stability and mobility of vacancy-solute clusters have been examined using ab initio calculations for oxygen, on one hand, which has been systematically compared to carbon and nitrogen, interstitial solutes frequently present in iron-based materials, and, on the other hand, for substitutional solutes : titanium and yttrium. The three interstitial solutes show very similar energetic and kinetic behaviors. The impact of small mobile vacancy-solute clusters has been verified using a cluster dynamics model based on our ab initio results. It has been thus demonstrated that with oversaturation of vacancies, diffusion of interstitial solutes may be accelerated, while substitutional solutes do not become necessarily faster. These conclusions are consistent with existing experimental observations. All these results have been then used to complete our understanding of nanoclusters formation mechanisms. It appeared that the relative mobility of yttrium and titanium, as well as the number of potential nuclei to form nanoparticles strongly depend on the total vacancy concentration in the system. Acier ODS Amas lacunes-solutés Mobilité Modélisation multi-échelle Ab initio ODS steels Vacancies-solutes clusters Diffusion Multiscale modeling Ab initio 620.17
26	Pokročilé kompozitní konstrukční oceli pro použití v taveninách těžkých kovů / Advanced Composite Structural Steels for Applications in Heavy Liquid Metals Husák, Roman January 2019 (has links) Doctoral thesis was focused on preparing of new advanced ODS steels for use in heavy metal liquids enviroments. Possibility of new course for creating oxide dispersion in microstructure was verified by the course of internal oxidation of elements. By the internal oxidation method were prepared new ODS steels strengthened by complex oxides which were created by elements of IIIB and IVB group of elements. Based on analysis of damage ODS steels in LBE were designed surface protection of ODS steel by the oxide layer. The ODS steel protected by oxide layer was subjected to a corrosion test in LBE. For the experiments were chosen class of chromium steels: ferritic-martensitic steel 9Cr1WMnVTa and ferritic steels 14CrWTi and 17Cr1Mo. Steels without oxide dispersion and steel strenghtened by the dispersion based on Y-Ti-O oxides were prepared. On the steels were made series of mechanic tests which should reveal the effectivity of oxide dispersion on the strenght of steel prepared by the internal oxidation method and by the direct addition of oxide elements. It was found that significantly harder oxide material couldn't be fully disrupted through the mechanical alloying and fine oxide dispersion couldn't be created. There was verified fine oxide dispersion could be created by the internal oxidation method and by the direct adding of oxide elements. Same kind of steels strenghtened by new kind of complex oxides based on Y, Ce, Hf, La, Sc and Zr were prepared. The chemical analyses have proven that all added elements could created complex oxide by the reaction with yttrium. The computational analyses for observing of matrix influence and oxide phase influence on strenghtening of steels were performed. These computational analyses were based on microstructural analyses of ODS steels. There was found that the oxide particles could very effectively improve strenght of steels at room temperature and especialy at high temperature. Based on corrosion tests of 14Cr ODS steel in liquid Pb and LBE enviroment were designed surface protection of ODS steel. The effectiveness of protective layer was verified by the high temperature corrosion test of PM2000 in LBE. No damage of oxide layer was observed although Pb and Bi diffused through protective layer.
27	Early Stages of Fatigue Damage of Steels for Fusion Energetics / Early Stages of Fatigue Damage of Steels for Fusion Energetics Kuběna, Ivo January 2012 (has links) Hlavním cílem této práce bylo vysvětlit únavové chování ocelí ODS Eurofer, 14Cr ODS feritické oceli vyráběné v CEA (Commissariat a l’énergie atomique, Saclay, France) a 14Cr ODS feritické oceli vyráběné v EPFL (École Polytechnique Fédérale de Laussane, Switzerland). Pokud to bylo možné byly získané výsledky porovnány s ocelí Eurofer 97. Tato práce je součástí široké spolupráce, která je zaměřena na vývoj konstrukčních materiálů pro fuzní reaktory. V průběhu práce byly provedeny následující experimenty: • Standardní únavové zkoušky za pokojové teploty, při 650 a při 750 , byly získány křivky cyklického zpevnění/změkčení, cyklické deformační křivky, Coffinovy–Mansonovy a Wöhlerovi křivky. Hysterezní smyčky byly detailně analyzovány. • Pozorování mikrostruktury výchozího stavu pomocí TEM a porovnání s mikrostrukturou po cyklickém zatížení. • Pozorování povrchového reliéfu, který vznik díky lokalizaci cyklické plastické deformace - byla odhalena místa iniciace únavových trhlin a byl analyzován mechanismus jejich vzniku. • Měření kinetiky únavových trhlin. Oxidická disperse značně zpevňuje materiály, redukuje cyklické změkčení a stabilizuje mikrostrukturu v celém rozsahu teplot. Byly nalezeny velké rozdíly v životnosti jednotlivých ocelí. Ty byly vysvětleny pomocí rozdílných mechanismů iniciace trhlin a jejich různou rychlostí.
28	Svařování ODS materiálů elektronovým svazkem / Electron beam welding of ODS materials Jankůj, Luděk January 2016 (has links) Thesis on Electron beam welding of ODS materials is divided into theoretical and experimental part. In the first part the theoretical research work focuses on the accurate description of the candidate materials in a research fusion reactor ITER. Following are detailed constructional ODS materials and tungsten alloy as a material of the first wall. The second part of the theoretical research deals with various possibilities of joining high-melting dissimilar materials such as brazing or electron beam welding as well, which will be established in the experimental section. The experimental part of the thesis deals with a joining ODS steel MA 956 with sintered carbide WC-Co and ODS tungsten. These materials are welded by electron beam. Individual samples are distinguished used filler material, preheating or welding parameters. This thesis contains photographic documentations of microstructure the welding samples, results from scanning electron microscopy, and measurements of microhardness across the weld metal.
29	Etude de l’élaboration d’aciers renforcés par dispersion d’oxydes par procédé alternatif de mécanosynthèse / Study of an alternative mechanical alloying process for oxide dispersion strengthened steels manufacturing Simondon, Esther 30 November 2018 (has links) Dans le cadre du développement de matériaux de gainage combustible pour les réacteurs à neutrons rapides refroidis au sodium (RNR-Na), cette étude s’intéresse au développement d’un procédé innovant d’élaboration d’aciers renforcés par dispersion d’oxyde (aciers ODS) par mécanosynthèse qui doit éviter l’apparition de précipités de tailles micrométriques indésirables dont la présence dégrade drastiquement les propriétés mécaniques. Ce nouveau procédé consiste à introduire directement des nanoparticules d’oxydes de structure pyrochlore Y2Ti2O7 dans une poudre métallique Fe-Cr via un broyage. Pour cela, un procédé de synthèse des oxydes de structure pyrochlore Y2Ti2O7 par co-broyage des poudres nanométriques Y2O3 et TiO2 a d’abord été mis en place au laboratoire. L’optimisation des conditions de broyage a permis d’obtenir une poudre nanostructurée de nature voulue et de grande pureté. Grâce au produit obtenu, la gamme de fabrication innovante d’aciers ODS proposée a pu être développée puis validé, à petite échelle puis à l’échelle semi-industrielle. Ce nouveau procédé a été utilisé pour étudier l’impact des conditions de broyage et de la composition chimique sur les caractéristiques des matériaux produits, et a permis d’établir le lien entre conditions d’élaboration, microstructure et propriétés mécaniques. Cette étude permet d’abord de valider le mode d’introduction des renforts sous la forme Y2Ti2O7 comme une méthode efficace pour l’obtention d’aciers ODS performants. De plus, elle révèle l’importance des conditions d’élaboration, et en particulier du broyage, sur la microstructure et les propriétés mécaniques des aciers ODS. Les résultats mis en avant ouvrent des perspectives prometteuses en ce qui concerne l’optimisation des conditions d’élaboration des aciers ODS. / This study concerns the development of an innovative manufacturing process for oxidedispersion strengthened steel (hereafter referred to as “ODS”) by mechanosynthesis. As part of materials development for Sodium-cooled Fast Reactors (SFR), the aim is to prevent the growth of undesirable micrometric precipitates which can drastically degrade steel’s mechanical properties. This new process introduces Y2Ti2O7 pyrochlore oxide nanoparticles directly into Fe-Cr metallic powder through mechanical milling. To achieve this, a process has been set up to synthesize Y2Ti2O7 pyrochlore oxides via mechanical alloying of nanosized Y2O3 and TiO2 powders. Optimization of the milling parameters enabled the production of a pure nanostructured powder of the desired nature. Thereafter, the innovative ODS steel manufacturing process was validated on a small and then semiindustrial scale. This new process was used to study the impact of milling parameters and chemical composition on the produced material’s features and enabled the establishment of a link between milling conditions, microstructure and mechanical properties. This study first enables the validation of the method of introducing precipitates in the form of Y2Ti2O7 oxides as an efficient way to obtain competitive ODS steel. Moreover, it reveals the importance of the features of the manufacturing process, particularly milling conditions, on the microstructure and mechanical properties of ODS steel. The results reveal promising perspectives concerning the features of ODS steel manufacturing. Mécanosynthèse Métallurgie des poudres Nanostructure Broyage Acier ODS Oxyde pyrochlore Y2Ti2O7 Mecanosynthesis Powder metallurgy Nanostructure Oxide-dispersion strengthened ODS steel Mechanical milling Pyrochlore oxide Y2Ti2O7 546.3
30	Vysokoteplotní zkřehnutí feritické 14%Cr ODS oceli v taveninách olova / High-temperature embrittlement of 14%Cr ODS ferritic steel in liquid lead environment Dohnalová, Eva January 2011 (has links) The thesis deals with the high-temperature embrittlement of 14%Cr ODS ferritic steel in liquid lead environment. The 14%Cr ferritic ODS steel ODM401 manufactured by powder metallurgy technology was used as an experimental material. The effect of the long-term annealing, surface corrosion attack in the melt Pb and Pb-Bi on the microstructure and mechanical properties was described. The subsequent microstructural changes were evaluated by means of scanning electron microscopy and transmission electron microscopy The mechanical behaviour of the experimental material was proven by means of microhardness test, impact test and static tensile test. The fractographical evaluation of fracture surfaces were performed on all samples. The surface attack and outstanding microstructural ganges were found after the long-time exposition of the steel in Pb/Pb-Bi melts at temperature 550°C/1000h and 500°C/1000h respectively. The embrittlement of the steel after exposition in Pb/Pb-Bi melts was comparable to the embrittlement after high-temperature annealing of the steel at temperature 650°C/1000h.

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