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Conformação de pó de aço inoxidável através do processo de injeção à baixa pressão / The low pressure injection molding of stainless steel metallic powderRogério Akihide Ikegami 15 September 2000 (has links)
Metalurgia do pó é o uso de metais na forma de pó para a manufatura de produtos. Pós metálicos são combinados (misturados) e compactados em um molde. O material compactado recebe um tratamento térmico ou é sinterizado em um ambiente controlado para a união das partículas para formar um produto denso e resistente. Injeção de pós metálicos tem se destacado mundialmente na produção de componentes de pequenas dimensões e formas complexas em substituição a fundição sob pressão e a sinterização convencional. Atualmente a injeção de pós metálicos está se tornando uma opção competitiva relativamente à peças fundidas, forjadas, usinadas e estampadas. O presente trabalho revisa as técnicas de injeção de pós metálicos e aplica o processo de injeção à baixa pressão utilizando pó de aço inoxidável 316L com granulometria fina (15 μm). Os produtos injetados, uma vez extraídos o VO e sinterizados, foram submetidos à ensaios de tração, dureza e micrográficos. Os resultados obtidos são apresentados e discutidos. O trabalho, para a sua viabilização, incluiu a reforma de uma injetora de bancada à baixa pressão e a construção de moldes de injeção. / Powder metallurgy is the use of metals in the powder form for the manufacture of products. Metallic powders are combined (mixed) and compacted in a die. The compacted material receives a thermal treatment or it is sintered in an controlled atmosphere for the particle binding to form a dense and resistant product. lnjection of metallic powders has if globally highlighted in the production of components of small dimensions and complex forms in substitution the pressure casting and the conventional sintering. Nowadays the injection of metallic powders is becoming relatively a competitive option than casting, forging, machining and stamping. The present work revises the techniques of injection of metallic powders and it applies the injection process to the low pressure using powder of stainless steel 316L with fine granulation (15 μm). The injected products, once debinded and sintered, were submitted to tensile test, hardness and micrography. The results are presented and discussed. In this work, included the reform of a low pressure injection machine and construction of injection dies.
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Modélisation du processus de polissage : identification des effets et des phénoménologies induits par l'usinage abrasif / Modelling of the polishing process : identification of the induced effects and the phenomenology of the abrasive material removalGoossens, François 30 November 2015 (has links)
Le polissage est un procédé d’usinage par abrasion qui vise à établir une micro-géométrieprécise sur les surfaces de solides. Pour introduire les spécificités de ce procédé, un tourd’horizon sur l’usinage par abrasion est proposé. Il en découle les paramètres pouvantcaractériser une opération de polissage. Les études scientifiques existantes sont synthétisées etanalysés au regard des objectifs poursuivis. De manière à faire émerger une méthodologiepour établir des modèles et des bases de données dédiées au polissage, un banc expérimental aété mis en place et des essais ont été menés sur une tôle en inox 316L avec un abrasifstructuré de forme pyramidale. Une méthode de mesure de l’usure des pyramides abrasives aété mise au point. Les premiers essais ont mis en évidence la nécessité pour les grains abrasifsd’exercer sur la matière une pression supérieure à une valeur minimale. Un modèle deconsommation matière issu de la loi de Preston a été présenté et validé par des essais. L’étudepar des plans d’expériences factoriels complets des efforts induits, de la rugosité au traversdes critères proposés par la norme ISO et de la mouillabilité a permis de mettre en évidencel’influence prépondérante de la taille des grains abrasifs. Par contre, la pression exercée parles grains, leur vitesse de défilement et le taux d’usure des pyramides abrasives n’ont qu’unrôle secondaire sur ces critères. Ces résultats constituent de précieuses indications pour lesbureaux des méthodes devant établir des gammes de polissage. / The polishing is a process of manufacturing by abrasion which aims at establishing a precisemicro-geometry on the surfaces of solids. To introduce the specificities of this process, anoverview on the manufacturing by abrasion is proposed. As a result, the parameters which cancharacterize an operation of polishing are identified. The existing scientific studies aresynthesized and analysed with regard to the pursued objectives. For the testing, an experimenttest bench was developed. The proposed methodology is applied on the polishing process ofthe AISI 316L using pyramidal abrasive belts. A measurement method of the abrasivepyramids wear is finalized. A method of measuring the abrasive pyramids wear is provided. Aremoving material rate model based on the Preston's law is presented and experimentallyvalidated. A study based on the design of experiment is conducted using as output the cuttingforces, the roughness and the wettability criteria. The results point out the dominatinginfluence of the size of the abrasive grains. On the other hand, the study indicates the fact thatthe applied pressure on the abrasive grains, the belt speed and the abrasive level do not playan important role on the previously cited characteristics. On the other hand, the studyhighlights that the applied pressure on the abrasive grains, the belt speed and the abrasivelevel do not have a significant effect on the previously cited characteristics. These resultsconstitute valuable indications for the industrial polishing process optimization.
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Etude de la formation des joints soudés par diffusion : application aux échangeurs de chaleur compacts / Study of interface formation during diffusion bonding : compact heat exchangers applicationBouquet, Nicolas 07 November 2014 (has links)
Les échangeurs compacts à plaques soudés-diffusés sont une solution prometteuse dans de nombreux domaines (nucléaire, (pétro-)chimie, solaire…) du fait de leurs performances. Ils sont envisagés pour le système de conversion d’énergie du réacteur nucléaire ASTRID. Pendant le soudage CIC, la problématique est double: maîtriser la déformation des canaux et l’évolution microstructurale du matériau tout en obtenant des interfaces résistantes. Cette thèse s’intéresse à la compréhension et à la maîtrise de la microstructure des assemblages pour définir des critères « procédé » permettant l’obtention d’interfaces non marquées par le procédé et le maintien d’une taille de grains fine. Après une caractérisation approfondie de leur surface et de l’évolution au chauffage de leur microstructure, le comportement au soudage de tôles en acier austénitique 316L a été étudié en faisant varier les paramètres liés au procédé (température et pression de soudage) et au format des tôles (épaisseur, état de surface…). Les résultats montrent que la formation de l’interface est associée à des mécanismes de croissance de grain classiques avec un ancrage interfacial plus ou moins marqué selon les caractéristiques des surfaces. Les propriétés mécaniques des assemblages ont été testées afin de déterminer la nocivité des défauts rencontrés. Si les pores constituent le défaut le plus pénalisant, l’influence d’autres hétérogénéités a été mise en évidence. Les étapes de formation des interfaces ont ensuite été identifiées par la réalisation de cycles de soudage interrompus. L’intérêt d’une approche numérique par la méthode Level-Set pour simuler les évolutions microstructurales est finalement discuté. / Compact diffusion bonded heat exchangers are an attractive option in many fields (nuclear, (petro-)chemistry, solar…) due to their performance. This type of concept is especially intended for manufacturing the energy conversion system of the ASTRID reactor. During diffusion bonding by HIP, the problem is twofold: the channel deformation and microstructure evolution must be controlled, while at the same time, highly resistant interfaces are desired. This thesis is focused on the understanding and the control of the bonded components microstructure prepared by HIP in order to define « process » criteria to achieve welds in agreement with specifications of components containing fluidic channels: interfaces unaffected by the process and small grain size. After a detailed characterization of their surface and microstructural evolution during heating, the behavior of AISI 316L austenitic steel sheets has been examined in a parametric study by varying the parameters related to process (diffusion bonding temperature and pressure) and welding material (thickness, surface finish…). The results show that the interface formation is driven by conventional grain growth mechanisms with an interfacial pining more or less marked depending on surface characteristics. The mechanical properties of assemblies have been tested to determine the influence of defects. Though pores are the most critical default, the influence of other heterogeneities has also been highlighted. The different steps of bond formation have been identified by performing interrupted diffusion bonding test. The interest of modeling approach by Level-Set method to simulate microstructure evolution has been finally discussed.
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Cooling Strategy Influence on Temperature in ETD CenterEdinger, Oskar January 2021 (has links)
Striving for increased productivity while maintaining hole quality and high process robustness when drilling requires knowledge about the working principles of heat generation, mechanics and a proper cutting fluid that aids in cooling, lubricating and evacuating chips from the cutting zone. If the heat generated in the tool-workpiece and tool-chip interfaces does not exit the cutting zone adequately through the chips, the workpiece material or the redistribution of coolant the hole quality can be impacted negatively and breakdowns may occur which reduces overall productivity. During product testing, a sudden type of drill failure was observed when machining 316L stainless steel. When modifying the coolant design this was avoided which led to the assumption that the failure was caused by a large amount of heat being generated due to poor conductivity in the material combined with insuffcient cooling. However, this theory couldn't be investigated because of a lack of an existing method. To evaluate, three modifications of the CoroDrill 870 with dimensions Ø16mm and length 3xD were designed using Siemens NX 12 to observe whether coolant design choices have a significant impact on heat generation when drilling. To examine this a testing methodology was developed which utilizes IR-thermography and a combination of type K and J thermocouples inserted into the workpiece and onto the back surface, which measures its temperature in the cutting zone. Several tests were conducted with the developed setup to gather a larger data set to reduce impact from random error and to perform further analysis. Although the experiment setup is promising due to being simple and applicable to different materials there are large sources of variation associated with the placement of thermocouples. The results indicate some difference in registered temperature between the modifications however it is diffcult to draw conclusions based on the relatively few trustworthy measurements made. / För att förbättra produktiviteten vid borrning utan att kompromissa på hålkvalité och processäkerhet krävs bakomliggande kunskaper inom områden som, värmebildning, skärförlopp, och kylvätska vilket kyler, smörjer, och transporterar spånor från skärzonen. Om värmen som bildas i ytorna mellan verktyg-ämne och verktyg-spåna inte lämnar skärzonen på ett tillförlitligt sätt genom spånor, ämnet eller genom kylvätskans cirkulation kan hålkvalitén påverkas eller haverier kan orsakas vilket minskar produktivitet. Under en testning som genomfördes där 316L rostfritt stål borrades upptäcktes en ny typ av abrupt brott. När borrens kyllösning modiferades kunde detta fel undvikas varpå man drog slutsatsen att haveriet var en konsekvens av den stora temperaturgradient som bildas då materialets värmeledningsförmåga är relativt dålig. Dessvärre kunde denna teori inte prövas då det saknades en befintlig testmetodik. För att undersöka detta utvecklades tre modifikationer av CoroDrill 870 med dimension Ø16mm och längd 3xD i Siemens NX 12 i syfte att observera huruvida en signifikant temperaturskillnad skulle uppstå. För att utreda detta skapades en testuppställning som kombinerar IR-termografi med termoelement av typ K och typ J, fästa i ämnet respektive påämnets baksida vilket mäter materialets temperatur i skärzon. Ett flertal tester genomfördes med denna uppställning för att samla en större mängd data för fortsatt analys samt för att minska inverkan av slumpmässiga fel.Även om metoden är lovande då den är relativt enkel och tillämpbar på olika material så finns det stora potentiella källor till variation kopplade till mänsklig faktor och placering av termoelement. Resultatet som analyserats antyder att det finns en viss temperaturskillnad mellan modifikationerna men för att göra välgrundade slutsatser skulle fler mätningar behöva genomföras.
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The effect of preload on the fatigue strength of additively manufactured 316L stainless steel / Effekten av förbelastning på utmattningen av additivt tillverkat 316L rostfritt stålSubasic, Mustafa January 2020 (has links)
In this thesis an investigation of the effect of preload on the fatigue behaviour of additively manufactured (AM) 316L stainless steel parts with less than 5 % porosity, for both horizontal and vertical build direction, is presented. The specimens used were manufactured by selective laser melting (SLM) and cut by EDM. Preloads at two different magnitudes were used, below and above the yield strength of the material, and fatigue tests were performed on the specimens with and without the preloads. In addition, microstructural analysis was carried out in order to illustrate/quantify the defects and to realize the corresponding effect of the preload by use of white light interferometry (WLI), SEM and FEM modeling. It was found that the fatigue life and the fatigue limit clearly increase with increasing the preloads in both build directions, although the preload significance might be varied for different directions. This was attributed to the imposed compressive residual stresses and blunting of sharp defects after preloading. / I detta examensarbete presenteras en undersökning på effekten av förbelastning på utmattningsbeteendet hos additivt tillverkade (AM) komponenter av 316L rostfritt stål med mindre än 5 % porositet, för både horisontell och vertikal byggriktning. Provstavarana tillverkades genom selektiv lasersmältning (SLM) och skars ut med trådgnist (EDM). Förspänningar i två olika storlekar användes, under och över materialets sträckgräns, och utmattningstester utfördes på provstavarna med och utan förspänningarna. Dessutom genomfördes mikrostrukturella analyser för att illustrera / kvantifiera defekterna och effekten av förspänningen med användning av vitt ljusinterferometri (WLI), SEM och FEM-modellering. Det visade sig att utmattningslivslängden och utmattningsgränsen tydligt ökar med ökad förspänning i båda byggriktningarna, även om förspänningens betydelse kan variera för olika riktningar. Denna positiva effekt på utmattningen kommer från de kompressiva restspänningarna och avstumpningen av skarpa defekter som uppstår efter förbelastningen.
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Etude de l’élaboration de l’acier inoxydable 316L par fusion laser sélective sur lit de poudre : influence des paramètres du procédé, des caractéristiques de la poudre, et des traitements thermiques sur la microstructure et les propriétés mécaniques. / Study of 316L stainless steel processed by selective laser melting : influence of process parameters, powder characteristics, and heat treatments on the microstructure and mechanical properties.Chniouel, Aziz 08 November 2019 (has links)
Dans le domaine de la métallurgie, la fabrication additive (FA) est un procédé de mise en forme des matériaux en pleine expansion dans plusieurs secteurs industriels tels que l’aéronautique, le spatial et l’automobile. L’exploitation des procédés de FA pour des applications dans l’industrie nucléaire est actuellement en cours d’étude dans différents pays. La FA permet d’élaborer des pièces optimisées avec des géométries complexes impossibles à réaliser avec les procédés conventionnels. Dans ce cadre, les travaux réalisés au cours de cette thèse visent à déterminer l’apport potentiel des procédés de FA pour la réalisation de composants métalliques pour diverses applications nucléaires dont les futurs réacteurs de Génération IV. Cette thèse présente les propriétés microstructurales et mécaniques de pièces en acier inoxydable 316L réalisées par procédé de fusion laser sélective sur lit de poudre (SLM, Selective Laser Melting). Trois thématiques ont été abordées dans cette étude : les paramètres du procédé SLM, les caractéristiques de la poudre et deux post-traitements thermiques (700°C-1h et compression isostatique à chaud : 1100°C-3h sous 1800 Bar). Leurs effets sur la microstructure et les propriétés mécaniques ont été analysés. Les propriétés en traction sur des éprouvettes en acier 316L ont été mesurées et comparées à celles d’un acier 316L forgé décrit par la norme RCC-MRX utilisée dans le domaine du nucléaire. Les résultats obtenus sont supérieurs à ceux de la norme et comparables à ceux d’un acier forgé. Cette thèse a permis de mieux cerner les interactions entre les paramètres liés au procédé, la microstructure et les propriétés mécaniques. / Additive Manufacturing (AM) recently became an attractive manufacturing process in several industrial fields such as aeronautics, aerospace and automotive. The exploitation of AM processes for the nuclear industry is currently being studied in different countries. The AM enables the creation of optimized parts with complex geometries impossible to manufacture with conventional processes. This thesis aims to determine the potential contribution of AM processes for the production of metal components for various nuclear applications including future Generation IV reactors. First, the microstructural and mechanical properties of 316L stainless steel parts built by Selective Laser Melting (SLM) process are presented. Three thematics were assessed in this study: the SLM process parameters, the powder characteristics and two post heat treatments (700 ° C-1h and hot isostatic pressing: 1100 ° C-3h under 1800 Bar). Their effects on microstructure and mechanical properties were analyzed. Tensile properties of 316L steel specimens were measured and compared to those of forged 316L steel described in the nuclear field by RCC-MRX standards. The results obtained are superior to those of the standard and comparable to those of a forged steel. This thesis contributes to a better understanding of interactions between the process parameters, the microstructure and the mechanical properties.
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Výpočtová predikce tvárného porušování / Computational Prediction of Ductile FractureHůlka, Jiří January 2014 (has links)
The issue of ductile damage prediction can be generally divided in two types of tasks. The first one is to preventing the initiation of ductile damage with is most common group of calculation today. The second task can be described as aimed damaging, such as machining, cutting, etc. The significant development of this issue occurred in recent decades by help of development and access to powerful computational techniques and new experimental possibilities. However, the behaviour of ductile damage at multiaxial proportional and non-proportional loading is insufficiently described. This thesis helped to clarify some of the unknown this topic. It contributed to the understanding of selected materials behaviour at room temperature and quasistatic loading. Austenitic stainless steel AISI 316L was selected for detail study of ductile damage. A large number of experiments were performed on this material, such as uniaxial tensile tests of smooth and notched specimens, upsetting tests of smooth cylinder and special cylinder with dimple, butterfly specimens, notched tube specimens and penetration tests. Experimental results is used for calibration of five so-called simple criteria, taking into account fracture strain and stress triaxiality (Equivalent fracture strain, Johnson-Cook, simplify Bao-Wierzbicki, RT, RTCL) and universal criteria (Bai-Wierzbicki, Xue-Wierzbicki, EMC, LOU, KHPS). SPT potentially enable the determination of actual mechanical behaviour using only a fraction of specimen volume compared to standard specimen. It is promising tool to improve accuracy when assessing working life of components in operation. The inverse numerical simulation loop of SPT was designed using program OptiSLang on the basis of detailed sensitivity analysis. It was achieved 2% deviation of yield strength and 6% deviation of ultimate strength obtained from tensile tests. A several modification of SPT specimen was suggested for universal criteria calibration of small material volume. The 3D numerical model was built for numerical simulation with ductile damage simulation. The criteria KHPS and EMC gave the most accurate results.
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Metal Filament 3D Printing of SS316L : Focusing on the printing process / Metal Filament 3D Printing av SS316L : Fokus på printningsprocessGante Lokesha Renukaradhya, Karthikesh January 2019 (has links)
As a cutting edge manufacturing methodology, 3D printing or additive manufacturing (AM) brings much more attention to the fabrication of complex structure, especially in the manufacturing of metal parts.A number of various metal AM techniques have been studied and commercialized. However, most of them are expensive and less available, in comparison with Selective Laser Melting manufactured stainless steel 316L component.The purpose of this Master Thesis is to introduce an innovative AM technique which focuses on material extrusion-based 3D printing process for creating a Stainless Steel 316L part using a metal-polymer composite filament. The Stainless Steel test specimen was printed using an Fused Deposition Modelling based 3D printer loaded with a metal infused filament, followed by industrial standard debinding and sintering process. Investigation was performed on the specimen to understand the material properties and their behaviour during the postprocessing method. In addition effects of debinding, sintering and comparison of the test Specimen before and after debinding stages was also carried out. Metal polymer filaments for 3D printing could be an alternative way of making metal AM parts. / Som en avancerad tillverkningsmetodik ger 3D-printing eller additiv tillverkning (AM) mycket mer uppmärksamhet vid tillverkning av komplex struktur, särskilt vid tillverkning av metallkomponenter. Ett antal olika AM-tekniker vid tillverkningen av olika typer av metallkomponenter har studerats och kommersialiserats.De flesta av dessa AM-tekniker är dyra och mindre tillgängliga, i jämförelse med Selective Laser Melting vid tillverkningen av en komponent i rostfritt stål 316L. Syftet med detta examensarbete är att introducera en innovativ AM-teknik som fokuserar på materialsträngsprutningsbaserad 3D-printingprocess för att skapa ekomponent i rostfritt stål 316Lkomponent med ett metallpolymerkompositfilament. Ett prov bestående av rostfritt stål skrevs ut med en FDM-baserad 3D-skrivare laddad med filament av polymer och metal, följt av industriell avdrivnings-och sintringsprocess. Provet studerades för att förstå materialegenskaperna och dess beteende under efterbehandlingsmetoden. Dessutom genomfördes också resultat från avdrivning och sintring på provet och en jämförelse av provet före och efter avdrivnlngssteget. Metallpolymertrådar för 3D-printing kan vara ett alternativt sätt att tillverka AM-metallkomponenter.
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The influence of repeated cleaning on corrosion and metal migration of 316L stainless steel in food contact applications / Effekter av upprepad rengöring på korrosion och metallmigration av 316L rostfritt stål i livsmedelskontaktFeng, Ailin January 2023 (has links)
Vilken påverkan som upprepad rengöring av rostfritt stål 316L inom livsmedelsindustrin har gällande dess ytegenskaper, grad av metallfrisättning och korrosionsbeteende är delvis outforskat. Vid rengöring skapar en förhöjd temperatur, olika pH-värden hos rengöringsmedlen och kloridjoner (Cl-) från kranvatten eller desinfektionsmedel en potentiellt korrosiv miljö. Felaktiga rengöringsmetoder kan öka risken för lokal korrosion, såsom gropkorrosion, vilket även påverkar metallfrisättningen under produktion och transport. Därför är det viktigt för livsmedelsindustrin att ha pålitlig information om hur upprepad rengöring påverkar ytegenskaperna, graden av metallfrisättning och förändringar i korrosionsmotstånd för att säkerställa en säker produktionsmiljö. Syftet med denna studie var att undersökta effekterna av upprepad rengöring av rostfritt stål av typ 316L som används för att processa livsmedel. Genom att undersöka effekter av de individuella rengöringsmedlen, H2O2, NaOH, HNO3, och CH3CO2OH, var för sig samt i en sekvens (relevant för industriellt bruk) tillhandahölls information om förändringar i ytoxiden relaterat till användning av de olika kemikalierna. Resultaten visar att upprepad rengöring förändrar den kemiska sammansättningen av ytoxiderna på den rostfria stålytan (XPS) efter individuell exponering för NaOH, HNO3 och den sekventiella metoden, men visade på ingen betydande skillnad efter individuell exponering för H2O2 eller CH3CO2OH. Ingen betydande förändring i ytmorfologi kunde heller observeras (LOM). En högre mängd frisatt metall observerades i NaOH, HNO3 och den sekventiella rengöringsmetoden jämfört med H2O2, och CH3CO2OH (AAS). En uppskattning av de tvättade ytornas korrosionsbeteende i kontakt med livsmedel erhölls genom elektrokemiska tester i citronsyra och artificiellt kranvatten. Resultaten visade att rostfritt stål 316L efter upprepad rengöring hade en högre benägenhet för gropkorrosion vid kontakt med artificiellt tappvatten (PDP). Skillnaden i den passiva ytoxidens elektrokemiska egenskaper hos det rengjorda rostfria stålet 316L var liten vid simulering av livsmedelskontakt (EIS). / The influence of repeated cleaning of 316L stainless steel in the food industry is not fully understood in terms of surface properties, metal migration, and corrosion behavior upon repeated contact with food stuffs during production. During cleaning, high applied temperatures, different pH of the cleaning agents, and presence of chloride ions (Cl-) from e.g. the tap water, food stuff or disinfectants create a potentially corrosive environment. Improper cleaning procedures used to clean 316L stainless steel may increase the susceptibility of localized corrosion, such as pitting corrosion, affecting the metal migration during food production and transport. Improved understanding of how repeated cleaning treatments affect the surface properties, extent of metal migration, and the corrosion performance is, hence, vital for the food industry in order to ensure a safe production environment. In this study, effects of repeated cleaning through different cleaning procedures provided by the industrial partners were investigated for 316L stainless steel (SS). The surface properties after repeated cleaning using five different cleaning procedures, four single solution procedures H2O2, NaOH, HNO3 and CH3CO2OH, and one sequential procedure including the four solutions in sequence, were further studied in the simulation of food contact using citric acid and artificial tap water. From the results it was evident that the repeated cleaning procedures changed the surface oxide composition of 316L SS (determined by means of XPS) after exposure to NaOH, HNO3 single solution cleaning and the sequential cleaning procedures but no significant changes could be observed after cleaning in H2O2 and CH3CO2OH separately. No significant difference in surface morphology was observed when comparing samples before and after repeated cleaning (by means of LOM). A higher amount of released metals was observed in the cleaning solutions from single NaOH solution, single HNO3 solution, and the sequential cleaning procedures (using AAS) compared with H2O2 and CH3CO2OH. After repeated cleaning, the electrochemical test (by means of PDP) results showed a somewhat greater tendency of 316L SS for pitting corrosion in contact with artificial tap water compared with citric acid. The observed differences in electrochemical properties of the passive film on the cleaned 316L SS was minor in the simulation of food contact applications (by means of EIS).
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Rôle de la force ionique, de l'albumine et du pH sur la dégradation par fretting-corrosion d'un contact acier inoxydable/PMMA. Application aux implants orthopédiques.Pellier, Julie 17 January 2012 (has links) (PDF)
La dégradation par fretting-corrosion des prothèses de hanche cimentées est l'une des principales causes de réintervention chirurgicale. L'étude du fretting-corrosion est effectuée entre un acier inoxydable 316L, matériau utilisé pour les tiges fémorales, et un polymère PMMA, matériau modèle du ciment chirurgical, dans différentes solutions, plus ou moins proches du liquide physiologique.L'étude a d'abord été réalisée à potentiel libre (OCP) pour être proche des conditions in vivo. L'influence des chlorures et le rôle de l'albumine, principale protéine du liquide physiologique, sur la dégradation du 316L et de sa couche passive sont ainsi évalués.Pour pouvoir obtenir des informations sur le courant de corrosion, des essais sont effectués à potentiel imposé. Le potentiel choisi est proche de la valeur de potentiel pendant fretting : E = -400 mV(ECS). Ce potentiel permet d'observer la transition entre courant cathodique et courant anodique en fonction de la force ionique. Lors d'un essai de fretting-corrosion, l'albumine joue le rôle d'inhibiteur de corrosion.La dégradation du 316L par fretting-corrosion est une combinaison entre l'usure corrosive, due au milieu physiologique contenant des chlorures, et l'usure mécanique. Il existe un terme de synergie entre usures corrosive et mécanique. L'influence de la force ionique et de l'albumine sur ce terme de synergie est aussi quantifiée.La forme de la trace d'usure en "W", caractéristique du fretting-corrosion, est due à un gradient de pH et à un mécanisme de corrosion proche de la corrosion caverneuse. Une étude à pH global imposé a permis d'estimer les valeurs probables de pH dans et à une courte distance de la zone d'usure.
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