Global ETD Search

21	Using Design of Experiments and Electron Backscatter Diffraction to Model Extended Plasticity Mechanisms In Friction Stir Welded AISI 304L Stainless Steel Nelson, Benjamin D. 29 July 2010 (has links) (PDF) Extended plasticity mechanisms (EPM) allow a metal to undergo extended plastic deformation without failure. These mechanisms are responsible for the extended plastic deformation characteristic of hot working processes. In this thesis it is shown that electron backscatter diffraction (EBSD) is capable of detecting EPM artifacts in the final microstructure of AISI 304L stainless steel (304L). Results also indicate that dislocation cells form in hot worked AISI 304L stainless steel. Additionally, in this study EBSD data collection and analysis is used with a design of experiments approach to model the presence of EPM artifacts in the final microstructure of friction stir welded 304L. Texture analysis of the welded material reveals a dominant shear deformation texture and a lack of the rotated cube texture. The shear deformation texture is characteristic of dynamic recovery (DRV) and continuous dynamic recrystallization (CDRX), while the rotated cube texture is characteristic of discontinuous dynamic recrystallization (DDRX). The texture analysis results indicate that dynamic recovery (DRV) and continuous dynamic recrystallization (CDRX) play a role in the final microstructure of the welded material, while DDRX does not. Design of experiments was used to find the relationships between the fraction of cell boundaries and spindle speed, travel speed, location in the stir zone, and tool temperature. The regression analyses reported that predicted fraction of cell boundaries were relatively high (approximately 0.70 or more) and changed by less that 20% in the stir zone and 10% in the TMAZ. The relatively high predictions indicate that in FSW 304L DRV dominates and limited CDRX occurs. The small changes in predictions across the experimental space indicate that the effects, while statistically significant, are not practically significant. Finally, an alternate tool temperature basis was developed, which provides a valid method for selecting welds which should have constant tool temperature. Benjamin Nelson FSW 304L EBSD recovery recrystallization DRV CDRX DDRX DOE Mechanical Engineering
22	Effect of Preferential Vaporization during Laser Rewelding on the Solidification and Cracking Response of Type 304L Stainless Steel Alloys with Systematically Varied Manganese Contents Berger, Jason E. 15 August 2018 (has links) No description available. Engineering Materials Science Laser Welding Type 304L Stainless Steel Vaporization Rewelding
23	Efeitos da temperatura de laminação na formação e na reversão de martensita induzida por deformação no aço inoxidável austenítico AISI 304L. / Effects of the rolling temperature on the formation and on the reversion of strain induced martensite in a AISI 304L stainless steel. Gomes, Tiago Evangelista 14 February 2012 (has links) Objetivo principal desta dissertação foi verificar os efeitos da temperatura de laminação na formação de martensita induzida por deformação e na sua posterior reversão da martensita para austenita no aço inoxidável austenítico AISI 304L. O estudo foi predominantemente microestrutural e para análise e caracterização foram utilizadas as técnicas de microscopia óptica, microscopia eletrônica de varredura, difração de raios X, medidas de dureza Vickers e medidas de fases ferromagnéticas por ferritoscopia. As amostras foram inicialmente solubilizadas a 1100 ºC por uma hora, visando a dissolução de uma pequena quantidade residual de ferrita encontrada nas amostras na condição como recebida, depois laminadas em diferentes temperaturas, determinando-se curvas de endurecimento por deformação e de formação de martensita induzida por deformação em função do grau de deformação. Em seguida, foram realizados pré-recozimentos a 600 ºC, favorecendo apenas a reversão da martensita para austenita, de maneira que não ocorresse a recristalização. A quantidade e a temperatura de deformação apresentaram forte influência na quantidade de martensita formada, no endurecimento por deformação e na cinética de amolecimento durante o recozimento. Os pré-tratamentos realizados a 600 ºC causaram acentuada reversão da martensita, algum amolecimento e pequeno efeito no tamanho de grão recristalizado durante o posterior recozimento a 600 ºC. / The main objective of the present dissertation was to verify the effects of the rolling temperature on the formation of strain induced martensite and in its subsequent martensite reversion to austenite in a AISI 304L stainless steel. The study was predominantly microstructural and, for the analysis and characterization, several techniques have been used, namely optical microscopy, scanning electron microscopy, X-ray diffraction, Vickers hardness measurements and magnetic phase measurements, using the ferritoscope. The samples were initially solution annealed at 1100 ºC for one hour, aiming at the dissolution of a small quantity of the residual -ferrite found in the samples in the as-received condition; then rolling was performed at different temperatures, evaluating strain hardening and the strain induced martensite as a function of strain. Following, pre-annealing treatments at 600 ºC have been performed, favoring only the martensite to austenite reversion, in a way that no recrystallization would occur. Strain and temperature had a strong influence on the amount of formed martensite, on the strain hardening and on the softening kinetics during annealing. The pre-annealing treatments at 600 ºC caused an accentuated effect on the martensite reversion, some softening and a small effect on the recrystallized grain size during the subsequent annealing at 600 ºC. 304L austenitic stainless steel Aço inoxidável austenítico 304L Endurecimento por deformação Grain refinement Martensita induzida por deformação Martensite reversion Recristalização Recrystallization Refino de grão Reversão da martensítica Strain hardening Strain induced martensite
24	Comportamento tribocorrosivo do aço inoxidável e de ligas de titânio em meio salino / Tribocorrosion behavior of stainless steel and titanium alloys in saline medium Danillo Pedro Silva 16 October 2014 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / No presente trabalho, foram realizados ensaios de tribocorrosão no aço inoxidável AISI 304L, no titânio comercialmente puro (CPTi) e na liga de titânio Ti6Al4V em solução aquosa de 0,90% m/v NaCl. Amostras de ligas de titânio com tratamento térmico superficial de refusão a laser também foram utilizadas. Um tribômetro do tipo pino-no-disco com contracorpo de alumina foi usado. Técnicas eletroquímicas in situ de monitoramento em circuito aberto, espectroscopia de impedância eletroquímica, curvas de polarização e amperimetria de resistência nula foram empregadas. Os resultados obtidos indicam que o desgaste tribocorrosivo das ligas de titânio é mais intenso do que o observado no aço inoxidável, apresentando perfis de superfície mais irregulares. A análise da impedância eletroquímica mostrou que todos os materiais utilizados apresentam uma rápida recuperação da camada passiva, exibindo módulos e fases um pouco menores do que os medidos antes do desgaste. Sob atrito, os diagramas de impedância apresentam uma forte redução do módulo. Sob desgaste, o expoente α do elemento de fase constante (CPE) atinge seu valor mais baixo, enquanto o parâmetro γ é máximo. As curvas de polarização exibem potenciais menores e densidades de corrente de corrosão maiores durante o desgaste. O tratamento de refusão a laser, embora mude a microestrutura e a dureza superficial das amostras, não indica uma mudança aparente nos parâmetros eletroquímicos sob tribocorrosão, bem como do coeficiente de atrito. Nos ensaios de amperimetria de resistência nula, foi possível estimar a corrente mensurada no ARN por meio do emprego de um circuito elétrico equivalente. A densidade espectral de potência dos sinais de potencial e de corrente exibe a frequência de rotação (1,25 Hz) e seus harmônicos. Para baixas frequências (abaixo de 10 mHz), o decaimento obedece à relação 1 ⁄ e 1⁄ para os sinais de potencial e corrente, respectivamente. / In this study, tribocorrosion tests were performed in stainless steel AISI 304L, commercially pure titanium (CPTI) and Ti6Al4V titanium alloy in 0.9% m/v NaCl aqueous solution of. Titanium alloy sample with laser remelting treatments were also tested. A pin-on-disc tribometer with alumina counterbody was used. In situ electrochemical techniques of open circuit monitoring, electrochemical impedance spectroscopy, polarization curves and zero resistance ammeter were employed. Results indicate tribocorrosion wear of titanium alloys is more intense than that observed in stainless steel, presenting more irregular surface profiles. Analysis of electrochemical impedance spectroscopy showed all materials used have a fast recovery of the passive layer, showing modulus and phase slightly smaller than those measured prior to wear. Under friction, impedance diagrams show a strong reduction of the modulus. Under rubbing, exponent α of the constant phase element (CPE) reaches its lowest value, while γ parameter is maximum. Polarization curves show lower corrosion potential and higher corrosion current density during rubbing. Laser remelting treatments, although changes microstructure and surface hardness of the samples, does not indicate an apparent change in electrochemical parameters under tribocorrosion, as well as in coefficient of friction. In zero resistance ammeter tests, it was possible to estimate the current measured in ZRA using an electrical equivalent circuit. Power spectral density of the potential and current signals exhibits the rotation frequency (1.25 Hz) and its harmonics. For lower frequencies (below 10 mHz), the decay follows 1⁄ and 1⁄ roll-off for signals of potential and current, respectively. Aço inoxidável Corrosão Titânio Corrosão Análise eletroquímica Corrosão Corrosão e anticorrosivos Tribologia Tribocorrosão Aço inoxidável AISI 304L Tratamento de refusão a laser Tribocorrosion Stainless steel AISI 304L Titanium alloys Laser remelting treatment Electrochemical techniques ENGENHARIA DE MATERIAIS E METALURGICA
25	Comportamento tribocorrosivo do aço inoxidável e de ligas de titânio em meio salino / Tribocorrosion behavior of stainless steel and titanium alloys in saline medium Danillo Pedro Silva 16 October 2014 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / No presente trabalho, foram realizados ensaios de tribocorrosão no aço inoxidável AISI 304L, no titânio comercialmente puro (CPTi) e na liga de titânio Ti6Al4V em solução aquosa de 0,90% m/v NaCl. Amostras de ligas de titânio com tratamento térmico superficial de refusão a laser também foram utilizadas. Um tribômetro do tipo pino-no-disco com contracorpo de alumina foi usado. Técnicas eletroquímicas in situ de monitoramento em circuito aberto, espectroscopia de impedância eletroquímica, curvas de polarização e amperimetria de resistência nula foram empregadas. Os resultados obtidos indicam que o desgaste tribocorrosivo das ligas de titânio é mais intenso do que o observado no aço inoxidável, apresentando perfis de superfície mais irregulares. A análise da impedância eletroquímica mostrou que todos os materiais utilizados apresentam uma rápida recuperação da camada passiva, exibindo módulos e fases um pouco menores do que os medidos antes do desgaste. Sob atrito, os diagramas de impedância apresentam uma forte redução do módulo. Sob desgaste, o expoente α do elemento de fase constante (CPE) atinge seu valor mais baixo, enquanto o parâmetro γ é máximo. As curvas de polarização exibem potenciais menores e densidades de corrente de corrosão maiores durante o desgaste. O tratamento de refusão a laser, embora mude a microestrutura e a dureza superficial das amostras, não indica uma mudança aparente nos parâmetros eletroquímicos sob tribocorrosão, bem como do coeficiente de atrito. Nos ensaios de amperimetria de resistência nula, foi possível estimar a corrente mensurada no ARN por meio do emprego de um circuito elétrico equivalente. A densidade espectral de potência dos sinais de potencial e de corrente exibe a frequência de rotação (1,25 Hz) e seus harmônicos. Para baixas frequências (abaixo de 10 mHz), o decaimento obedece à relação 1 ⁄ e 1⁄ para os sinais de potencial e corrente, respectivamente. / In this study, tribocorrosion tests were performed in stainless steel AISI 304L, commercially pure titanium (CPTI) and Ti6Al4V titanium alloy in 0.9% m/v NaCl aqueous solution of. Titanium alloy sample with laser remelting treatments were also tested. A pin-on-disc tribometer with alumina counterbody was used. In situ electrochemical techniques of open circuit monitoring, electrochemical impedance spectroscopy, polarization curves and zero resistance ammeter were employed. Results indicate tribocorrosion wear of titanium alloys is more intense than that observed in stainless steel, presenting more irregular surface profiles. Analysis of electrochemical impedance spectroscopy showed all materials used have a fast recovery of the passive layer, showing modulus and phase slightly smaller than those measured prior to wear. Under friction, impedance diagrams show a strong reduction of the modulus. Under rubbing, exponent α of the constant phase element (CPE) reaches its lowest value, while γ parameter is maximum. Polarization curves show lower corrosion potential and higher corrosion current density during rubbing. Laser remelting treatments, although changes microstructure and surface hardness of the samples, does not indicate an apparent change in electrochemical parameters under tribocorrosion, as well as in coefficient of friction. In zero resistance ammeter tests, it was possible to estimate the current measured in ZRA using an electrical equivalent circuit. Power spectral density of the potential and current signals exhibits the rotation frequency (1.25 Hz) and its harmonics. For lower frequencies (below 10 mHz), the decay follows 1⁄ and 1⁄ roll-off for signals of potential and current, respectively. Aço inoxidável Corrosão Titânio Corrosão Análise eletroquímica Corrosão Corrosão e anticorrosivos Tribologia Tribocorrosão Aço inoxidável AISI 304L Tratamento de refusão a laser Tribocorrosion Stainless steel AISI 304L Titanium alloys Laser remelting treatment Electrochemical techniques ENGENHARIA DE MATERIAIS E METALURGICA
26	Efeitos da temperatura de laminação na formação e na reversão de martensita induzida por deformação no aço inoxidável austenítico AISI 304L. / Effects of the rolling temperature on the formation and on the reversion of strain induced martensite in a AISI 304L stainless steel. Tiago Evangelista Gomes 14 February 2012 (has links) Objetivo principal desta dissertação foi verificar os efeitos da temperatura de laminação na formação de martensita induzida por deformação e na sua posterior reversão da martensita para austenita no aço inoxidável austenítico AISI 304L. O estudo foi predominantemente microestrutural e para análise e caracterização foram utilizadas as técnicas de microscopia óptica, microscopia eletrônica de varredura, difração de raios X, medidas de dureza Vickers e medidas de fases ferromagnéticas por ferritoscopia. As amostras foram inicialmente solubilizadas a 1100 ºC por uma hora, visando a dissolução de uma pequena quantidade residual de ferrita encontrada nas amostras na condição como recebida, depois laminadas em diferentes temperaturas, determinando-se curvas de endurecimento por deformação e de formação de martensita induzida por deformação em função do grau de deformação. Em seguida, foram realizados pré-recozimentos a 600 ºC, favorecendo apenas a reversão da martensita para austenita, de maneira que não ocorresse a recristalização. A quantidade e a temperatura de deformação apresentaram forte influência na quantidade de martensita formada, no endurecimento por deformação e na cinética de amolecimento durante o recozimento. Os pré-tratamentos realizados a 600 ºC causaram acentuada reversão da martensita, algum amolecimento e pequeno efeito no tamanho de grão recristalizado durante o posterior recozimento a 600 ºC. / The main objective of the present dissertation was to verify the effects of the rolling temperature on the formation of strain induced martensite and in its subsequent martensite reversion to austenite in a AISI 304L stainless steel. The study was predominantly microstructural and, for the analysis and characterization, several techniques have been used, namely optical microscopy, scanning electron microscopy, X-ray diffraction, Vickers hardness measurements and magnetic phase measurements, using the ferritoscope. The samples were initially solution annealed at 1100 ºC for one hour, aiming at the dissolution of a small quantity of the residual -ferrite found in the samples in the as-received condition; then rolling was performed at different temperatures, evaluating strain hardening and the strain induced martensite as a function of strain. Following, pre-annealing treatments at 600 ºC have been performed, favoring only the martensite to austenite reversion, in a way that no recrystallization would occur. Strain and temperature had a strong influence on the amount of formed martensite, on the strain hardening and on the softening kinetics during annealing. The pre-annealing treatments at 600 ºC caused an accentuated effect on the martensite reversion, some softening and a small effect on the recrystallized grain size during the subsequent annealing at 600 ºC. Aço inoxidável austenítico 304L Endurecimento por deformação Martensita induzida por deformação Recristalização Refino de grão Reversão da martensítica 304L austenitic stainless steel Grain refinement Martensite reversion Recrystallization Strain hardening Strain induced martensite
27	modélisation de la recristallisation lors du forgeage à chaud de l’acier 304L – une approche semi-topologique pour les modèles en champs moyens / Modeling of recrystallization during hot forging process of 304L stainless steel - A topological approach for mean-field models Smagghe, Guillaume 07 February 2017 (has links) Les pièces métalliques constituant le circuit primaire des installations nucléaires sont élaborées par forgeage à chaud. Pendant ce procédé, les transformations microstructurales induites par la déformation et les recuits déterminent une partie des propriétés mécaniques des produits finaux. L’orientation de la microstructure lors du processus de fabrication nécessite une connaissance précise des mécanismes physiques qui opèrent dans le matériau. Dans le cas de la déformation à chaud de l’acier austénitique 304L, ces modifications microstructurales dépendent de la recristallisation dynamique discontinue (DDRX) et de la recristallisation post-dynamique (PDRX). L’objet de ce projet est : (i) l’étude de la DDRX et de la PDRX dans les conditions de déformation du procédé de forgeage, (ii) l’étude de l’influence d’un ajout de niobium sur ces mécanismes, (iii) la modélisation de ces mécanismes afin de prédire les caractéristiques de la microstructure (moyenne et distribution de la taille des grains) à l’issue d’un procédé multipasses. Dans le cadre de l’étude, les conditions de déformation rencontrées lors du forgeage à chaud sont reproduites à l’aide d’essais de torsion sur des matériaux modèles contenant des teneurs en niobium différentes. La caractérisation et la modélisation des microstructures a permis de comprendre les effets respectifs de la température, de la vitesse de déformation ainsi que de l’ajout de niobium sur les mécanismes de la DDRX et de la PDRX. Dans cette étude, une nouvelle approche semi-topologique de l’hypothèse champs moyens est développée afin de permettre la prédiction de distributions de la taille de grain cohérentes avec les données expérimentales. / Cooling system of nuclear power plants is constituted of metallic parts obtained by hot forging. Thus during the manufacturing process, the microstructural trans- formations induced by the deformation and annealing process define partially the mechanical properties of the final products. A sharp knowledge of the physical mechanisms generated within the material is required to handle the microstructure. In the case of hot deformation of 304L austenitic stainless steel, the microstructural modifications depend on the discontinuous dynamic recrystallization (DDRX) and the post-dynamic recrystallization (PDRX). The aim of this project is: (i) the study of the DDRX and the PDRX under the conditions of deformation inherent in the forging process, (ii) the study of the influence of niobium addition on these mechanisms, (iii) the modeling of these me- chanisms in order to predict the microstructure characteristics (mean grain size and distribution) following a multipass process. As part of the research, the deformation conditions experienced during the hot forging process are replicated through torsion tests with model materials containing various niobium concentrations. Characterization and modeling of microstructures enable to understand the respective e ects of temperature, strain rate as well as niobium addittion on the DDRX and PDRX mechanisms. In this study, a new topological approach of mean-field hypothesis is developed in order to allow the prediction of realistic grain size distributions. Recristallisation dynamique discontinue Recristallisation post-dynamique Acier austénitique inoxydable 304L Effet du niobium Modélisation en champs moyens Forgeage à chaud 304L austenitic stainless steel Effect of Niobium Mean-field modeling Hot forging process
28	Alliages à grains ultrafins et bimodaux : approche couplée expérience-modélisation basée sur la microstructure / Ultrafine grained and bimodal alloys : a coupled experimental-numerical approach based on the microstructure Flipon, Baptiste 22 October 2018 (has links) Ce travail porte sur l'élaboration et l'analyse du comportement mécanique d'alliages à distribution bimodale de taille de grains. Les applications concernent les aciers inoxydables austénitiques 304L et 316L. Une approche couplée expérience-modélisation est menée pour comprendre les réponses mécaniques macroscopiques et locales de ces nouveaux alliages en se basant notamment sur l'étude des mécanismes de déformation associés. L'utilisation de deux voies d'élaboration et l'optimisation de leurs paramètres a conduit à l'obtention d'un large choix d'échantillons avec différentes distributions bimodales et différentes proportions de chaque famille de taille de grains. L'influence de ces caractéristiques microstructurales sur le comportement a été analysée sur la base d'essais en traction simple sous chargement monotone ou en charges-décharges alternées. Une base de données étendue de propriétés a ainsi été constituée et des éléments de réponse concernant les mécanismes de déformation propres aux alliages bimodaux ont pu être apportés. La présence de grains de taille conventionnelle (Coarse Grain -CG) au sein d'une matrice à grains ultrafins (UltraFine Grain - UFG) semble favoriser la relaxation d'une partie des contraintes internes de la matrice et tend ainsi à retarder l'endommagement des alliages bimodaux en comparaison aux alliages unimodaux à grains ultrafins. Une modélisation à champs complets selon deux lois de plasticité cristalline tenant compte explicitement d'une longueur interne a été proposée. Sa première motivation est de fournir un outil de prédiction du comportement effectif des alliages bimodaux en fonction de leurs caractéristiques microstructurales. Elle donne par ailleurs accès aux champs locaux et permet d'appuyer les analyses expérimentales en partition des contraintes en montrant à la fois une relaxation partielle des contraintes dans la matrice UFG mais aussi des concentrations de contrainte aux interfaces CG/UFG. / This work is focused on the elaboration and the mechanical behaviour of 304L and 316L austenitic stainless steel alloys with bimodal grain size distribution. The complementary approach between experiments and modelling enables a better understanding of both macroscopic and local mechanical responses and also of the associated deformation mechanisms.The use of two elaboration routes and optimized process parameters results in a wide range of samples with different bimodal grain size distributions. Grain sizes and fractions of each population are modified in order to study the influence of these microstructural characteristics on mechanical behavior. Uniaxial tensile tests are used to realize a database of mechanical properties of bimodal alloys and loading-unloading tests provides valuable informations about deformation mechanisms in these materials. With coarse grains (CG) embedded in an ultrafine grained (UFG) matrix, a relaxation of a part of the internal stresses seems to take place and leads to a delayed embrittlement of bimodal alloys as compared to their unimodal counterparts. Full-field modelling, based on two crystal plasticity laws with an explicit account of an internal length, is proposed. It constitutes a valuable prediction tool of effective properties of bimodal alloys in order, in particular, to study the effect of several microstructural characteristics. An access to local fields is also possible and tend, so far, to show similar results compared to experimental ones : stress relaxation is observed in the UFG matrix as well as stress concentrations at the CG/UFG interfaces. Grains ultrafins Distribution bimodale Transformation de phase 316L 304L Modélisation à champs complets Plasticité cristalline Ultrafine grains Bimodal grain size distribution Powdermetallurgy Spark plasma sintering Cold-rolling Phase transformation Austenitic stainless steel 316L 304L Full-field modelling Crystalline plasticity
29	Etude de l'association laser-projection thermique pour l'optimisation de revêtements Danlos, Yoann 16 December 2009 (has links) (PDF) Afin d'améliorer la qualité des dépôts réalisés par projection thermique, diverses techniques connexes aux procédés de projection ont été développées. Parmi celles-ci, on peut noter les procédés laser qui peuvent présenter l'avantage de dispenser un traitement localisé en surface, simultané à la projection. Comparés aux techniques de préparation couramment employées, ces procédés sont également plus respectueux de l'environnement. Le sujet de thèse repose donc sur la compréhension et la maîtrise des prétraitements laser (préchauffage, ablation) afin d'améliorer les propriétés finales des revêtements réalisés et en particulier l'adhérence des dépôts sur le substrat. Projection thermique Cold spray laser d'ablation laser de préchauffage aluminium 2017 TA6V acier inoxydable 304L inconel 718
30	Effet du pré-écrouissage sur la durée de vie d'aciers austénitiques de type 304L Kpodekon, Crescent 30 April 2010 (has links) (PDF) Le travail s'intéresse aux effets de l'histoire de chargement sur le comportement et la durée de vie en fatigue de deux nuances (THYSSEN et CLI)d'un acier inoxydable austénitique 304L à la température ambiante. Les essais ont été réalisés en utilisant deux catégories d'éprouvettes. Les éprouvettes de la première catégorie (vierges) ont été soumises à des essais classiques de fatigue,alors que celles de la deuxième ont subi, avant les essais de fatigue, un pré-écrouissage monotone ou cyclique en déformation imposée. Les éprouvettes vierges manifestent un adoucissement cyclique suivi d'un durcissement cyclique alors que les éprouvettes pré-écrouies ne présentent qu'un durcissement cyclique. Les résultats montrent une grande influence du pré-écrouissage qui semble bénéfique en contrainte imposée, mais néfaste en déformation imposée,même en présence d'une contrainte moyenne de compression. Ces résultats sont discutés en termes d'évolution cyclique du module d'élasticité, des écrouissages isotropes et cinématiques, et de la densité d'énergie absorbées par cycle, dans différentes configurations : avec ou sans pré-écrouissage, en contrainte ou déformation imposées... [PHYS] Physics [PHYS] Physique 304l Chargement cyclique Pré-écrouissage Durcissement cyclique Adoucissement cyclique Fatigue Écrouissage isotrope Écrouissage cinématique

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