Comportement du xénon et de l'hélium dans le carbure de silicium : applications au domaine de l'énergie nucléaire (fission et fusion) / Xenon and helium behavior in silicon carbide : applications for nuclear energy (fission and fusion)

Baillet, Joffrey

29 November 2016

Ce travail de thèse s'inscrit dans le cadre des recherches menées sur les matériaux envisagés pour servir dans les réacteurs nucléaires du futur. Parmi ces matériaux, se trouve le carbure de silicium qui est envisagé comme matériau d'enrobage et de gainage du combustible dans les réacteurs à fission ou comme matériau face au plasma ou constituant les couvertures tritigènes dans les réacteurs à fusion (concept DEMO). Des échantillons de β-SiC ont été frittés par Spark Plasma Sintering. Deux gaz rares abondamment produits en réacteur, le xénon et l'hélium, ont été implantés dans SiC à température ambiante et à plusieurs fluences (Φ1 Xe = 5.1015 at.cm-2 et Φ2 Xe = 1.1017 at.cm-2 pour le xénon et Φ1 He = 5.1015 at.cm-2, Φ2 He = 1.1017 at.cm-2 et Φ3 He = 1.1018 at.cm-2 pour l'hélium). Les échantillons irradiés en xénon ont ensuite été recuits à différentes températures (400 °C, 700 °C et 1000 °C). Une amorphisation complète du matériau a été observée pour toutes les fluences sauf Φ1 He (dpamax = 0,2) ainsi qu'une oxydation notable pour les plus hautes fluences. Un seuil de concentration de formation de bulles dans SiC a pu être déterminé pour l'hélium et le xénon. La coalescence de ces bulles à forte concentration s'est traduite par la formation de cloques sur la surface dans le cas de l'implantation à Φ3 He. A Φ2 Xe, des bulles de plusieurs centaines de nanomètres se sont formées dans la phase oxyde (SiO2 amorphe) alors que la coalescence reste très limitée au sein de la phase SiC résiduelle (nanobulles). Aucun relâchement des espèces implantées n a été mesuré jusqu'à une fluence de 1017 at.cm-2. A Φ3 He, un relâchement important d'hélium s'est produit pendant l'implantation, ce qui indique un effet de saturation dans le matériau. Après traitement thermique à 1000 °C, un relâchement conséquent du xénon contenu initialement dans la phase oxyde a été mesuré alors que le xénon contenu dans la phase SiC semble mieux retenu / This work is part of studies on the proposed materials to be used in future nuclear reactors. Among these materials is silicon carbide, which could be used as a cladding or coating material for the fuel in fission reactors, or as a constituent of plasma facing component or breeding blankets in fusion reactors (DEMO concept). β-SiC samples were synthetized by spark plasma sintering. Two rare gases abundantly produced in reactor, xenon and helium, were implanted in SiC at room temperature and at several fluences (Φ1 Xe = 5.1015 at.cm-2 and Φ2 Xe = 1.1017 at.cm-2 for xenon, Φ1 He = 5.1015 at.cm-2, Φ2 He = 1.1017 at.cm-2 and Φ3 He = 1.1018 at.cm-2 for helium). Xenon irradiated samples were then annealed for two hours at different temperatures (400 °C, 700 °C and 1000 °C). A complete amorphization of the material is observed for all fluences except for Φ1 He (maximum dpa level ≈ 0.2). A significant oxidation is observed for the highest fluences. A threshold concentration for bubble formation has been determined for both species. Bubble coalescence at high concentration results in the surface blistering at Φ3 He. Bubbles of several hundred nanometers were formed in the oxide phase (SiO2) after irradiation at Φ2 Xe, while remaining SiC islands are less subject to coalescence (nanometric bubbles). No gas release could be demonstrated up to a fluence of 1017 at.cm-2. For Φ3 He = 1018 at.cm-2, a significant helium release occurs that could indicate a saturation effect within the material. During thermal treatment at 1000 °C, xenon is retained by carbide phase and highly released by oxide phase

Carbure de silicium

Xénon

Hélium

Nanograins

Irradiation

Haute température

Oxydation

Formation de bulles

Silicon carbide

Xenon

Helium

Nanograins

Irradiation

High temperature

Oxidation

Bubbles formation

530.4

Croissance de films minces de silice enrichies en nano-grains de silicium et dopées aux ions Nd3+ : caractérisation et optimisation des propriétés optiques.

Bréard, David

17 December 2007

Des films minces de silice enrichies en nano-grains de silicium (ng-Si) dopées aux ions Nd3+ ont été déposées par pulvérisation magnétron réactive. Leurs propriétés de photoluminescence ont été étudiées en fonction de la composition. La formation d'agglomérats de Nd2O3 aux fortes concentrations en Nd3+ diminue la PL. l'influence de la temperature et de la composition sur les chronogrammes de temps de vie des ions Nd3+ a ete etudiee. On a démontre l'existence de deux temps de vie. La composante rapide a été attribuée aux agglomérats de Nd2O3 et la composante lente aux ions Nd3+ libres.

[PHYS:COND] Physics/Condensed Matter

Couches minces

Terres rares

Neodyme

pulvérisation cathodique

Photoluminescence

guide d'onde planaire

silice

silicium

nanograins

multicouches

temps de vie

électroluminescence

Caracterizações de propriedades microestruturais e mecânicas de ligas AA 1100 e AA 5052 processadas pela técnica de laminação acumulativa (\"Accumulated Roll Bonding - ARB\"). / Characterization of microestrutural and mechanical properties from AA1100 and AA5052 alloys that were processed by Accumulated Roll Bonding - ARB.

Santos Filho, Olmede Celestino dos

26 March 2009

Nesta dissertação de mestrado foram utilizadas duas ligas de alumínio (AA1100 e AA5052) para a produção de uma microestrutura final apresentando tamanho médio de grãos menores que um micrometro. Tal fato foi possível através do processo de Accumulated Roll Bonding (ARB). Tais materiais produzidos por ARB, foram caracterizados conforme propriedades mecânicas (microdureza, limite de escoamento e resistência) e microestruturais (tamanho de grão e macrotextura e composição química dos precipitados). O principal resultado para este trabalho foi a produção de tiras de AA 1100 e AA 5052 com tamanho médio de grão de 0,50 ± 0,04 m e 0,42 ± 0,06 m respectivamente. Tal resultado é coerente em comparação à literatura. Com relação aos resultados de textura, tais amostras apresentaram temperatura de recristalização acima de 473K e componente de textura típicas de cisalhamento (tanto para o material oriundo de fábrica como para o material laminado). Tal fato é esperado já que não se utilizou lubrificação durante ensaios de laminação. A propriedade mecânica de microdureza de AA 1100 ficou coerente com a literatura embora as propriedades de limite de escoamento e de resistência possuíram módulos abaixo da literatura. / The present work is related to the production, in a laboratory scale, of a metallic microstructure having a grain size smaller than one micrometer, through the Accumulated Roll Bonding technique(ARB), for two different aluminum alloys, namely AA 1100 and AA 5052. The strips obtained by the ARB technique have been characterized by their mechanical properties (microhardness, yield and tensile strength), and their microstructure (grain size, macrotexture and precipitates chemical composition). The main result of this work has been the rolling of AA1100 and AA5052 strips with an average grain size of 0.5 ± 0.04 m and 0.42 ± 0.06 m respectively. Such results are consistent with the literature. Relative to the texture, the samples presented a recrystallization temperature higher than 473K and typical shear texture components (due to the dry rolling conditions during the ARB). Microhardness of the AA110 was consistent with literature data; however yield and tensile strength presented values that were lower than those observed in the literature.

AA1100

AA5052

Accumulates Roll Bonding

ARB

Conformação mecânica

Grain refining

Mechanical working

Metalurgia física

Nanograins

Strip rolling

Textura

Texture

Ultra-fine grains

Caracterizações de propriedades microestruturais e mecânicas de ligas AA 1100 e AA 5052 processadas pela técnica de laminação acumulativa (\"Accumulated Roll Bonding - ARB\"). / Characterization of microestrutural and mechanical properties from AA1100 and AA5052 alloys that were processed by Accumulated Roll Bonding - ARB.

Olmede Celestino dos Santos Filho

26 March 2009

Nesta dissertação de mestrado foram utilizadas duas ligas de alumínio (AA1100 e AA5052) para a produção de uma microestrutura final apresentando tamanho médio de grãos menores que um micrometro. Tal fato foi possível através do processo de Accumulated Roll Bonding (ARB). Tais materiais produzidos por ARB, foram caracterizados conforme propriedades mecânicas (microdureza, limite de escoamento e resistência) e microestruturais (tamanho de grão e macrotextura e composição química dos precipitados). O principal resultado para este trabalho foi a produção de tiras de AA 1100 e AA 5052 com tamanho médio de grão de 0,50 ± 0,04 m e 0,42 ± 0,06 m respectivamente. Tal resultado é coerente em comparação à literatura. Com relação aos resultados de textura, tais amostras apresentaram temperatura de recristalização acima de 473K e componente de textura típicas de cisalhamento (tanto para o material oriundo de fábrica como para o material laminado). Tal fato é esperado já que não se utilizou lubrificação durante ensaios de laminação. A propriedade mecânica de microdureza de AA 1100 ficou coerente com a literatura embora as propriedades de limite de escoamento e de resistência possuíram módulos abaixo da literatura. / The present work is related to the production, in a laboratory scale, of a metallic microstructure having a grain size smaller than one micrometer, through the Accumulated Roll Bonding technique(ARB), for two different aluminum alloys, namely AA 1100 and AA 5052. The strips obtained by the ARB technique have been characterized by their mechanical properties (microhardness, yield and tensile strength), and their microstructure (grain size, macrotexture and precipitates chemical composition). The main result of this work has been the rolling of AA1100 and AA5052 strips with an average grain size of 0.5 ± 0.04 m and 0.42 ± 0.06 m respectively. Such results are consistent with the literature. Relative to the texture, the samples presented a recrystallization temperature higher than 473K and typical shear texture components (due to the dry rolling conditions during the ARB). Microhardness of the AA110 was consistent with literature data; however yield and tensile strength presented values that were lower than those observed in the literature.

Conformação mecânica

Metalurgia física

Textura

AA1100

AA5052

Accumulates Roll Bonding

ARB

Grain refining

Mechanical working

Nanograins

Strip rolling

Texture

Ultra-fine grains