Spelling suggestions: "subject:"galvanic.""
51 |
[en] ANALYSIS OF REACTIONS IN THE FE-ZN SYSTEM THROUGH X-RAYS DIFFRACTION IMAGING IMAGE PROCESSING / [pt] ANÁLISE DAS REAÇÕES DO SISTEMA FE-ZN ATRAVÉS DE DIFRAÇÃO DE RAIOS-X SENSÍVEL À POSIÇÃO E PROCESSAMENTO DE IMAGENSMARIA ISMENIA SODERO TOLEDO FARIA 26 September 2003 (has links)
[pt] O processo de galvanização por imersão a quente é uma
técnica industrial largamente utilizada para proteger
componentes de aço expostos à corrosão ambiental. Este
processo envolve reações complexas, cujos mecanismos ainda
são motivo de debate. A boa performance do revestimento
está diretamente relacionada com as fases intermetálicas
presentes no revestimento final. Assim, o entendimento do
mecanismo de nucleação e crescimento das fases durante a
etapa de tratamento térmico contribui para a melhoria do
processo, principalmente para redução de custos e
desenvolvimento de novos produtos. No presente trabalho, a
técnica MAXIM (Materials X-rays Imaging) foi utilizada para
identificar as fases presentes em amostras galvanizadas
submetidas a diferentes tratamentos. Um difratômetro
equipado com um sistema de colimação e detecção formado por
uma placa contendo microcanais (Micro-Channel Plate, MCP)
situada em frente à uma câmera CCD, permite a obtenção de
uma imagem de raios-X. Com esta técnica pode-se identificar
a origem posicional do feixe difratado com resolução de
cerca de 12mm. Foram realizados dois tipos de experimentos:
(1) experimentos, à temperatura ambiente, que consistiam na
observação de amostras galvanizadas previamente tratadas
(2) experimentos de tratamento térmico in situ, onde a
evolução das fases pode ser acompanhada em tempo real. Pode-
se concluir que a técnica MAXIM, acoplada ao forno de
tratamento térmico in situ, é um método eficiente de
observar a distribuição e evolução das fases presentes nas
amostras galvanizadas e galvannealed. Este técnica é
sensível o suficiente para detectar a evolução das fases
com boa resolução espacial. / [en] Galvannealing is an important commercial processing
technique used to protect steel components exposed to
corrosive environments. This process involves a number of
complex reactions and their precise mechanisms are still a
matter of debate. The good performance of the coating is
closely related to the Fe-Zn intermetallic phases present
in the coating. The understanding of the mechanisms for
phase nucleation and growth during the galvannealing
process is, therefore, essential to help improving current
processes, mainly for cost reduction and new products
development. In the present study, the MAXIM (MAterials
Xrays Imaging) technique was used to identify the phases
present in previously galvanized steel samples subjected to
different annealing conditions. A diffractometer equipped
with a novel imaging system comprising a micro-channel
plate (MCP) in front of a CCD detector was used. This setup
allows positionresolved X-ray diffraction investigation of
materials, with a resolution of 12mm. The experiments
involved two sets of conditions; (1) experiments based on
the observation, at room temperature, of previously
galvannealed samples. (2) in-situ annealing experiments,
where the phase evolution was recorded in real time. It
can be concluded that MAXIM, coupled to in-situ annealing,
provides a useful method for observing the phase evolution
and distribution in galvanized/galvannealed samples. The
method is sensitive enough to detect the time/temperature
evolution of these phases, with good spatial resolution.
|
52 |
Adhesive Performance of UV-cured Clearcoat on Galvanized Steel / Adhesionsegenskaper hos UV-lacker på galvaniserat stålTrinh, Khanh January 2019 (has links)
A study has been carried out regarding the possibility for application of UV-cured coatings on different pretreated galvanized steel, in coil coating application. In order to address the questions about whether the adhesion will be affected and how, when combining respective coating with a steel substrate. Two types of UV-curable formulations have been applied respectively, acrylate-based free radical formulation and epoxy-based cationic formulation, on five types of steel substrates. In addition, UV-LED was also investigated as an alternative energy source. The aim is to explore the curing of the coatings, the surface topology and hydrophilicity, the material and mechanical properties of coatings and coated systems respectively. It was found that the acrylate coating gives a hydrophilic surface while the epoxy coat is hydrophilic but is more hydrophobic than acrylate. The acrylate resin is not compatible with Standard Ti-pretreatment from PO substrates and the curing of epoxy is inhibited by pretreatment primer in PP substrates. Curing using UV-LED is possible and should be investigated further. No comparison could be made between coating systems acrylate and epoxy, regarding the adhesive performance, due to the failure of obtaining the right thickness for the acrylate coating. / I denna studie undersöktes möjligheten att applicera UV-härdande lacker på olika förbehandlade galvaniserade stålsorter för bandlackering. Detta för att förstå mer om vidhäftningen påverkas av, och på vilket sätt, kombinationen av respektive UV-lack med olika metallsubstrat. Två olika UV-formuleringar, akrylat and epoxy, applicerades på fem olika stålsubtrat och även screeningsstudie på UV-LED utfördes. Målet är att undersöka uthärdning av lackeringar, topologin och hydrofilicitet, material och mekaniska egenskaper hos färglacken och de lackade systemen, samt möjlighet att använda LED-lampa som UV-källan. Resultatet visar att akrylat ger en hydrofil yta medan epoxy är hydrofil men är mer hydrofob än akrylat. Akrylatet är inte kompatibelt med Standard Ti-pretreatment från PO substrat och uthärdning av epoxy inhiberas av förbehandlade primer på PP-prover. Uthärdning med UV-LED är möjligt och bör undersökas ytterligare. Det gick inte att jämföra mellan de två UV-formuleringarna, akrylat och epoxy, på grund av fel tjocklek hos akrylatfilmerna.
|
53 |
Mécanismes d'adhésion entre une colle époxy crash et un acier galvanisé au cours d'un vieillissement hygrothermique / Adhesion mechanisms of an epoxy crash adhesive on galvanized steel during hydrothermal ageingCalvez, Perrine 10 December 2009 (has links)
Depuis quelques années, l'industrie automobile s'intéresse au développement d'adhésifs crashs. Ces produits donnent aux assemblages collés des performances exceptionnelles en tenue mécanique statique, en fatigue et en tenue au crash. Ces adhésifs sont formulés pour s'adapter de façon optimale aux procédés de mise en œuvre de l'industrie automobile. L'objectif de l'étude est de déterminer les mécanismes d'adhésion, au cours d'un vieillissement humide, pour différentes chimies de surface et la cinétique des phénomènes engendrant des variations des niveaux d'adhérence et des modes de rupture. Dans cette thèse, des systèmes industriels, le test de traction-cisaillement et le cataplasme humide ont été retenus. Une approche combinant chimie et physique de l'adhésif, de l'acier galvanisé et du joint de colle a été menée. Cette approche multi-technique a permis de mettre en évidence les phénomènes responsables de la perte d'adhérence d'un assemblage acier galvanisé/adhésif crash au cours d'un vieillissement hygrothermique. L'interphase apparaît comme la zone la plus sensible aux contraintes mécaniques avant et après quelques jours de vieillissement. En revanche, pour des temps de vieillissement plus importants, la couche de corrosion devient la zone de faible cohésion. L'étude de l'influence de la chimie de surface des substrats d'acier galvanisé sur les propriétés d'adhérence des assemblages collés montre une meilleure réactivité et donc une meilleure tenue mécanique des substrats contenant davantage de zinc et d'hydroxydes que d'aluminium et d'oxydes. Une attention plus particulière a été portée sur la caractérisation fine de la chimie de surface des aciers galvanisés. / Since few years, automotive industry tends to develop crash adhesives. By bonding metal sheets with a continuous bead of crash adhesive, automotive manufacturers can significantly improve both body stiffuess and crashworthiness. The crosslinking conditions of the adhesive on industrial surface (galvanized steel) without cleaning correspond to those used industrially (Electrocoat product). The aim of this work is to determine adhesion mechanisms during hydrothennal ageing for different surface chemistry and kinetics of phenomena generating variations of adhesion levels and failure locus. For this study industrial materials (galvanized steel and epoxy crash adhesive), lap-shear test and humid cataplasm were selected. An approach combining chemistry and physics of the adhesive, substrate and joints was led. This multi-technical approach can be of major interest for the study of phenomena responsible of adhesion loss for adhesively bonded joints in moist environment. So the failure is located in a metal/polymer interphase during the first period of ageing then the failure shifts within a surface layer of corrosion products. The influence of surface chemistry of galvanized steel substrates on metal/polymer adhesion was also studied. The results show a better reactivity and consequently better mechanical properties for substrates with zinc and hydroxides than aluminum and oxides. In this approach, a precise characterization of surface chemistiy was led by XPS methodology.
|
54 |
Estudo da resistência à corrosão de filmes orgânicos para proteção temporária do aço-carbono e aço galvanizado / Study on resintance to corrosion of organic films for temporary protection of carbon steel and galvanized steelGiacchero, Luiz Fernando 26 July 2013 (has links)
Made available in DSpace on 2016-12-08T17:19:21Z (GMT). No. of bitstreams: 1
Luiz Fernando Giacchero.pdf: 4189596 bytes, checksum: 744ba5d6d712d7bbaf8643e411becaf4 (MD5)
Previous issue date: 2013-07-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In order to know the electrochemical behavior of galvanized steel and improve its corrosion protection were tested mineral oils and emulsions which exist in the industrial sector in order to compare the electrochemical tests with results obtained in natural tests. The galvanizing Industries care about a safety when selling their material and the mineral oils inhibitors are widely used in this field, but if these oils or oil-water emulsions are not in the ideal concentration, they can not ensure protection for galvanized steel, which is usually required by suppliers of at least six months without the formation of corrosion products. The technique of electrochemical impedance spectroscopy (EIS) and polarization curves anodic and cathodic (CPOL) showed the electrochemical behavior of galvanized steel, ordinary steel, the electrochemical behavior of galvanized steel in the presence of mineral oils and emulsifying behavior even in presence of oil full. Immersion tests were performed at regular steel and galvanized steel in order to understand the mechanisms of formation of corrosion products and the results were obtained by scanning electron microscopes (SEM) techniques and X-ray diffraction (XRD). Tests were also conducted with natural samples of galvanized steel with different concentrations of oil in an airtight container with the atmosphere of a more aggressive galvanizing industry partner in this research for a period of six months at the most critical period of the year where the great heat exchange causes a greater number of cycles that dry and wet samples favoring the formation of corrosion products. Samples will be collected after the six-month period and analyzed by SEM and XRD to identify the corrosion products formed comparing the analyzes obtained for several concentrations of emulsions and thus identifying the most efficient way to ensure the protection against corrosion in galvanized steel. / As indústrias de galvanização que armazenam o aço zincado em locais de alta umidade relativa propiciam a formação da corrosão branca que afeta a estética e, conseqüentemente, a comercialização do material. Para zelar pela integridade do metal, óleos minerais são utilizados neste campo como inibidores temporários de corrosão. Porém, se esses óleos ou emulsões óleo-água não estiverem na concentração ideal, poderão não garantir uma proteção para o aço zincado, que costuma ser exigida por fornecedores de no mínimo seis meses sem a formação de produtos de corrosão visíveis a olho nu. A técnica de espectroscopia de impedância eletroquímica (EIE) e as curvas de polarização anódicas e catódicas (Cpol) mostraram o comportamento eletroquímico do aço galvanizado, aço comum, aço galvanizado em presença de óleos minerais emulsionáveis e o comportamento desse em presença de óleo integral. Ensaios de imersão foram realizados no aço comum e galvanizado a fim de conhecer os produtos de corrosão por microscopia eletrônica de varredura (MEV) e por difração de raios X (DRX). Ensaios naturais também foram realizados com amostras de aço galvanizado com diferentes concentrações de óleo num recipiente hermeticamente fechado com a atmosfera de uma indústria parceira do setor por um prazo de seis meses no período mais crítico do ano onde a grande inversão térmica provoca um maior número de ciclos de secagem favorecendo a formação de produtos de corrosão. As amostras com concentração abaixo de 15% revelaram produtos comuns aos ensaios de imersão como os hidroxicloretos hidratados de zinco nas amostras com emulsões de concentração de 5% de óleo e os hidroxicarbonatos de zinco nas placas com concentração de 5% e 10% de óleo, sendo apenas as emulsões com teor de óleo igual ou maior a 15% eficientes neste período de tempo.
|
55 |
Contribution à l’étude des comportements mécaniques et à la corrosion d’un système de fondation de type pieu vissé dans un sol mou en environnement tropical humide / Contribution to the study of the mechanical and corrosion behavior of a screw pile in soft soil of a humid tropical environmentSalhi, Lakhdar 11 December 2014 (has links)
L’objet de cette thèse est l’étude des comportements mécanique et à la corrosion d’un nouveau système de fondation, dit pieux SPIRMEC, adapté aux structures légères. Le travail s’est focalisé sur deux grands aspects. Le premier aspect concerne l’analyse du comportement sous chargement axiale des pieux SPIRMEC sur la base de l’expérimentation et de la modélisation numérique dans un sol mou non cohésif. Quant au deuxième aspect, il traite du problème de la corrosion de l’acier constituant le pieu dans un environnement tropical humide. Le comportement des pieux SPIRMEC sous une charge axiale de traction, dans un sol fin non cohésif, a montré le développement d’une surface cylindrique de rupture. Celle-ci ne dépend pas de la configuration géométrique des pieux tel que : l’espacement S, le diamètre d’hélice Dh et le diamètre du tube d. En adoptant ce critère de rupture et à l’aide d’une analyse statistique des données, nous avons proposé quatre méthodes analytiques de prédiction de la capacité portante des pieux SPIRMEC à partir des essais in-situ et au laboratoire qui sont: • Méthode CPT basée sur la résistance de pointe pénétromètrique (essai CPT), • Méthode MPT basée sur la pression limite pressiomètrique (essai MPT), • Méthode du couple d’installation, • Méthode analytique basée sur les paramètres de cisaillement de sol notamment l’angle de frottement interne (essais triaxial et boîte de cisaillement). Ces méthodes tiennent compte de la géométrie du pieu, du procédé de mise en oeuvre et de la compacité du sol. L’analyse de performance des méthodes proposées a montré que les méthodes analytique et CPT représentent mieux le comportement des pieux testés. La modélisation numérique du comportement des pieux SPIRMEC sous charge axiale de traction a été également étudiée à l’aide du code de calcul Plaxis 2D. Un modèle axisymétrique a été adopté pour modéliser la géométrie de la structure. Le modèle de comportement hardening soil a été retenu pour modéliser le comportement élastoplastiq des couches de sol. Un modèle élastique linéaire a été retenu pour le pieu. Quant au comportement de l’interface sol-structure, il a été pris en compte par un modèle élastoplastique basé sur les critères de Mohr-Coulomb. L’expansion du sol résultant de l’installation des pieux a été approchée par une cavité cylindrique. Cette dernière a été modélisée par des déformations volumiques anisotropes. Nous avons constaté, qu’appliquer une déformation volumique de l’ordre de 40% permet une bonne concordance entre les résultats numériques et expérimentaux. L’étude paramétrique nous a également permis de constater l’existence d’une variation linéaire entre la capacité portante et l’espacement S. Le comportement de l’acier galvanisé dans le sol a été également étudié au moyen de trois approches: électrochimique, visuelles grâce au microscope électronique et gravimétrique. Les tests électrochimiques de corrosion du zinc ont été réalisés dans la solution de sol artificielle pour deux périodes bien distinctes : saison des pluies et après 8 mois de contact sol-pieu. Une forte dépendance est constatée de la vitesse de corrosion de zinc au pH et à la conductivité de la solution. La vitesse de corrosion est plus importante en saison des pluies qu’après 8 mois de contact de pieu avec le sol. Les fortes concentrations en sulfates semblent augmenter la vitesse de corrosion. Les analyses menées au MEB montrent que la zone de fluctuation de nappe et en surface externe (sol/air) sont les zones les plus corrodées. La comparaison entre les différentes techniques d’évaluation de la vitesse de corrosion a montré que l’eau de nappe peut être utilisée comme un milieu représentatif du profil chimique d’un sol non cohésif et légèrement granulaire. / The purpose of this thesis is to study the both behaviors mechanical and of the corrosion of a new foundation system, called spirec piles, for lightweight structures. The work was based on two main aspects. The first aspect concerns the analysis of behavior of the spirmec piles under axial loading on the basis of experimental and numerical modeling in a non-cohesive soft soil. On the second aspect, it addresses the problem of corrosion of steel forming the pile in a humid tropical environment. The behavior of the tested piles under axial traction load, in a non-cohesive soil, showed the development of a cylindrical surface of failure. This does not depend on the geometrical configuration of the tested piles such that: the spacing s, the helix diameter dh and the diameter of the shaft. By adopting this failure criterion and using statistical data analysis, we proposed four analytical methods for predicting the bearing capacity of the piles from in-situ and laboratory tests, which are: cpt method based on tip resistance penetrometer (cpt test), mpt method based on pressuremeter limit pressure (test mpt), method of installation torque and analytical method based on the shear parameters of soil (triaxial tests and shear box). These methods take into account the geometry of the pile, the method and implementation of soil compaction. Performance analysis of the proposed methods showed that the analytical methods and cpt represent better the behavior of piles tested. An axisymmetric condition was assumed to model this geometry in two-dimensional space. In this study, we proposed to model the pipe screw pile with plates elements available in plaxis 2d. The helixes were modeled as circular disks. Interface elements were incorporated along the pile to simulate the soil-pile interaction. Hardening soil model was chosen to describe the soil with drained behavior was assigned for all layers. Linear elastic for pile and elastic plastic model based on the mohr-coulomb criterion was used to describe the interface behavior. The lateral expansion generated by the pile shaft was modeled by anisotropic volumetric strains (ɛxx=ɛzz, ɛyy=0). The pile behavior under tensile loading at different volumetric strains, it is clear that the best fit was obtained at volumetric strain of 40%. The parametric study also allowed us to establish the existence of a linear variation between the bearing capacity and spacings. The behavior of the galvanized steel in the ground has also been studied using three approaches such as: electrochemical, microscopic imaging and gravimetrically. Electrochemical tests of the corrosion of the zinc have been made in artificial soil solution into two periods, the rainy season and after eight months of contact soil-pile. Is a strong dependence of the observed corrosion rate of the zinc at the ph and conductivity of the solution. The corrosion rate is higher in the rainy season compared to eight months of contact of the pile with soil. High sulfate concentrations increase the rate of corrosion. The meb analysis shows that the fluctuation zone of the water table is the most corroded area. Comparison between the different methods of evaluating the corrosion rate showed that the ground water may be used as a representative profile of the chemical environment of a non-cohesive soil and slightly granular.
|
56 |
Impacts des stratégies d'exploitation de réseaux intérieurs sur la durabilité de canalisations d'eau chaude / Impacts of disinfection treatments on pipe material durability in hot water distribution systemsCastillo Montes, Jaime 20 December 2011 (has links)
Afin de maitriser la qualité d'eau dans les réseaux d'eau chaude sanitaire, des traitements de désinfection thermiques et chimiques sont utilisés. Ces traitements de désinfection peuvent avoir un impact sur la dégradation des canalisations. L'influence de l'addition d'hypochlorite de sodium et de l'augmentation de la température sur la vitesse et le mode de dégradation des canalisations en cuivre, acier galvanisé, PERT/Al/PERT et PVCc a été étudiée. Pour ceci, des essais de vieillissement accéléré ont été réalisés en conditions statiques et dynamiques. Afin de réaliser les essais en conditions dynamiques, un banc d'essais à échelle 1 a été conçu et construit.La chimie des solutions d'hypochlorite de sodium à des températures élevées (>50°C) est complexe, ceci a motivé la réalisation d'une étude complémentaire sur les espèces présentes en fonction du pH et la cinétique de décomposition des solutions d'hypochlorite de sodium. Cette étude a révélé que l'augmentation de la température de 50°C à 70°C à une valeur de pH donnée produit une diminution significative de la concentration en acide hypochloreux. De plus, la décomposition de l'hypochlorite de sodium en chlorates est accélérée par la présence de cuivre et elle peut devenir significative à partir de 50°C.Les essais de vieillissement réalisés sur les canalisations ont révélé que l'addition d'hypochlorite de sodium est pénalisante par rapport à la vitesse de dégradation du cuivre, acier galvanisé et PERT/Al/PERT. Cependant, la dégradation du PVCc ne semble pas se voir affectée par l'addition d'hypochlorite de sodium. L'élévation de la température de 50°C à 70°C paraît accélérer légèrement la dégradation du PERT/Al/PERT et du PVCc. En revanche, avec une chloration de 25 ppm en hypochlorite de sodium, le mode de corrosion du cuivre est uniforme à 70°C tandis qu'il est localisé à 50°C.Les conclusions de ces résultats peuvent être d'utilité pour la conception et la maintenance des réseaux d'eau chaude sanitaire. / Hot water quality control inside buildings is assured by thermal or/and chemical disinfection treatments. These disinfection treatments could have an impact on the material degradation. The influence of the addition of sodium hypochlorite and the increase in temperature on the degradation of copper, galvanized steel, PERT/Al/PERT and cPVC pipes was studied. Accelerated ageing tests were conducted under static and dynamic conditions. To carry out the tests under dynamic conditions a scale 1 pilot was designed and built.The chemistry of sodium hypochlorite solutions at temperatures higher than 50°C is complex. Therefore, the species repartition as a function of pH and the decomposition kinetic of sodium hypochlorite solutions had also been studied. This study revealed that, at a given pH, an increase in temperature from 50°C to 70°C produce a significant decrease in concentration of hypochlorous acid. In addition, the decomposition of sodium hypochlorite in chlorates is accelerated by the presence of copper. The chlorates concentration can become significant at 50°C in presence of copper.The results of the ageing test performed on pipes revealed that the addition of sodium hypochlorite increase the degradation rate of copper, galvanized steel and PERT/Al/PERT. However, the degradation rate of cPVC does not seem to be affected by the addition of sodium hypochlorite. An increase in temperature from 50°C to 70°C slightly accelerated degradation of PERT /Al/PERT and cPVC. Concerning copper, at 70°C corrosion is uniform while at 50°C corrosion is by pitting.The conclusions of this study can be useful for the design and the maintenance of hot water systems.
|
57 |
Etude des mécanismes de corrosion - cicatrisation d'aciers revêtus par des alliages d'aluminium : sur tranche et en zone confinée : approche expérimentale et numérique / Study of the self healing mechanism of aluminium coated steels on cut edge specimens in confined media : experimental and numerical approachesVu, Anh Quang 17 December 2012 (has links)
L’objectif de ce travail était d’étudier les mécanismes de corrosion-cicatrisation d’aciers revêtus par des alliages d’aluminium, sur tranche et en zone confinée. Sur la tranche, les techniques de mesures locales ont été utilisées pour étudier le comportement de deux types de revêtements sacrificiels : l’un étant constitué d’un alliage d’aluminium à 55% en masse et de Zn (Aluzinc) et d’un alliage d’aluminium contenant environ 11% silicium (Alusi). L’ensemble des résultats montre que les revêtements à base alliages d’aluminium ont un comportement sacrificiel qui dépend fortement de leur composition selon le type d’environnement concerné. Si le milieu corrosif contient des chlorures il est plus facile d’amorcer et/ou de stabiliser le comportement sacrificiel. Cela est par exemple parfaitement illustré par le comportement du revêtement Alusi qui reste passif dans le milieu sulfate et donc ne permet aucune protection à l’acier. Par contre pour les revêtements 55%Al-Zn, on a pu constater un effet sacrificiel très stable en milieu chloruré (l’acier est protégé cathodiquement) qui se confirme en milieu sulfate mais seulement pour de courtes périodes d'immersion (t < 1 h). L’étude du comportement de ces mêmes traitements de surface en situation de corrosion perforante a permis de proposer un dispositif d’étude représentatif ayant une géométrie assez proche de celles des éprouvettes qui ont fait l’objet d’une normalisation. On a mis l’accent sur la possibilité de mesurer l’évolution du pH en positionnant de manière précise une microélectrode de pH à membrane liquide sélective dans une cavité modèle. Par des simulations numériques basées sur des modèles de transport et de réaction on a montré que l’on pouvait calculer les gradients chimiques et électriques dans la cavité testée en utilisant la résolution des équations de transport (Nernst-Planck) par la méthode des éléments finis / The objective of this work was to study the self healing mechanisms of aluminium based alloy coated steels on cut-edge specimens in confined condition. In situ chemical and electrochemical probe techniques have been used to study the behaviour of two types of sacrificial coatings: one is consisting on an Al alloy containing 55% of Zn (Aluzinc) and the other one contains about 11% of Silicon (Alusi). The results showed that the aluminium based coatings have a sacrificial behaviour which depends strongly on their composition and on the environment concerned. In a corrosive environment containing chlorides it is easier to initiate and / or stabilize the sacrificial behaviour. This is clearly illustrated by the behaviour of the Alusi coating which remains passive in a neutral sulphate solution and therefore does not protect the steel. On the opposite, for 55% Al-Zn coatings, a very stable sacrificial effect has been demonstrated in chloride medium (steel is cathodically protected) which is confirmed in sulphate medium but only for short periods of immersion (t <1 h). An experimental setup allowing pH measurements inside a confined volume representing a lapped joint was designed. The pH evolution over steel and galvanized steel surfaces in confined conditions was monitored. This experimental pH was compared with that calculated using a two-dimensional transport-reaction model only in the case of a confined iron surface. The difference between the experimental and calculated pH in the steady state was attributed to the limitation of the modelling approach, more especially concerning solid phases precipitation inside the cavity
|
58 |
Contaminação com sal de cloreto e cromatização da superfície do aço zincado no processo não-contínuo de zincagem por imersão a quente: influência no desempenho de tintas e determinação de pré-tratamentos para pintura adequados. / Chloride salt contamination and chromate quenching of galvanized steel on the batch galvanizing process: the influence on paint performance and the determination of suitable surface preparation for painting.Ferrari, Jean Vicente 17 May 2006 (has links)
O processo industrial não-contínuo de zincagem por imersão a quente (ZIQ) pode ocasionar a contaminação superficial do aço-carbono zincado por imersão a quente (AZIQ) com resíduos de cloreto. Estes resíduos, se não forem efetivamente eliminados, podem influenciar negativamente no desempenho dos esquemas de pintura dos sistemas dúplex (zincagem mais pintura). Sabe-se que no processo de ZIQ, a cromatização é amplamente utilizada, entretanto, o efeito que este pós-tratamento exerce no desempenho dos esquemas de pintura ainda não é bem estabelecido. Neste contexto, este trabalho teve como objetivos: I - verificar o grau de contaminação no AZIQ com sal de cloreto devido ao próprio processo de ZIQ; II - verificar os efeitos da contaminação com sal de cloreto e da cromatização do processo ZIQ no desempenho de tintas aplicadas sobre o AZIQ; e III determinar pré-tratamentos para pintura adequados para o bom desempenho das tintas aplicadas sobre o AZIQ. A metodologia adotada para alcançar o objetivo I envolveu a zincagem de chapas de aço-carbono em diferentes prestadores de serviço de ZIQ, em diferentes condições. Estas chapas zincadas foram analisadas por microanálise química qualitativa por espectrometria de dispersão de energia (EDS) em microscópio eletrônico de varredura (MEV) e pela determinação dos teores de cloreto superficiais, por método de extração com água em ebulição. A partir dos resultados obtidos para se alcançar o objetivo I, foi possível definir as condições no processo de ZIQ que potencialmente causam maior contaminação da superfície do AZIQ com sal de cloreto. Assim, para se alcançar os objetivos II e III, chapas de aço-carbono foram zincadas naquelas condições de máxima contaminação com sal de cloreto e parte delas foi submetida ao pós-tratamento de cromatização. Em seguida, uma grande parte destas chapas zincadas (cromatizadas ou não) foi submetida aos pré-tratamentos para pintura de desengraxe com solvente orgânico, de hidrojateamento a alta pressão, de jateamento abrasivo ligeiro e de ação mecânica com esponja abrasiva e água quente. Finalmente, as chapas zincadas, incluindo as não submetidas aos pré-tratamentos, foram pintadas com uma demão de tinta de aderência mais uma demão de tinta de acabamento. As chapas zincadas e pintadas foram submetidas a ensaios acelerados (imersão em água destilada e exposição em câmara de umidade saturada) e não-acelerados de corrosão (exposição em estação de corrosão atmosférica) e avaliadas por meio dos ensaios tradicionais de acompanhamento de desempenho (grau de empolamento e ensaios de aderência de tinta) e eletroquímicos (medida de potencial de circuito aberto, curva de polarização e espectroscopia de impedância eletroquímica E.I.E.). Algumas chapas zincadas, antes da pintura, foram submetidas aos ensaios de caracterização física (exame microestrutural e morfológico em MEV e rugosidade superficial), química microanálise por EDS, difração de raios X e teor de cloreto superficial pelo método de extração com água em ebulição) e eletroquímica. Os resultados obtidos, neste estudo, permitiram verificar que a aplicação adicional de sal cloreto de amônio sólido durante o processo de ZIQ tende a aumentar o grau de contaminação superficial do AZIQ com cloreto e, as etapas de resfriamento e/ou de cromatização do processo também contribuem para esta contaminação. No geral, o desempenho do AZIQ cromatizado teve desempenho inferior em relação ao não-cromatizados. O hidrojateamento a alta pressão e a lavagem com água e ação mecânica foram os prétratamentos que proporcionaram os melhores desempenhos dos esquemas de pintura. / The batch galvanizing process (BGP) can lead to surface contamination of hot-dip galvanized steel (HDGS) with chloride residues. If these residues are not effectively eliminated, they can influence negatively on the performance of duplex systems (galvanizing plus painting). It is known that the chromate quenching is widely used in the BGP, however the effect of this post-treatment on the performance of duplex systems is not well established yet. In this sense, this work aimed: I to verify the contamination degree of HDGS with chloride salt due to the BGP itself; II to verify the effects of the chloride salt contamination and chromate quenching on the performance of paints applied on HDGS; and III to determine the suitable surface preparation for painting in order for obtaining a good paint performance applied on HDGS. The adopted methodology to achieve goal I involved the galvanizing of steel plates in different service renderings with BGP, in different conditions. These HDGS plates were submitted to the qualitative energy dispersive microanalyses (EDS) in scanning electron microscopy (SEM) and to the determination of superficial chloride contents by the boiling water extraction method. From the obtained results, the conditions in the BGP that potentially lead to greater surface contamination of HDGS with chloride salt were determined. Thus, to achieve goals II and III, steel plates were galvanized under the maximum chloride salt contamination condition and part of them were submitted to chromate quenching. After that, a great part of these HDGS plates (chromated or non chromated quenching) was submitted to the surface preparations for painting through organic solvent cleaning, high pressure hydroblasting, sweep blasting and handled scrub cleaning with an abrasive sponge and hot distilled water. Finally, the HDGS plates, including those not submitted to the surface preparations for painting, were painted with one coat of primer plus one coat of finishing paint. The HDGS painted plates were submitted to accelerated (distilled water immersion and humidity chamber exposure) and non accelerated (atmospheric exposure) corrosion tests and their performance were verified by means of traditional tests (degree of blistering and paint adhesion) and electrochemical measurements (open circuit potential, polarization curve and electrochemical impedance spectroscopy E.I.S.). Before painting, some HDGS plates were submitted to tests for physical (microstructural and morphological analyses in MEV and surface roughness), chemical (EDS, X-ray diffraction and superficial chloride contents by the boiling water extraction method) and electrochemical characterization. The obtained results allowed verifying that the additional application of solid ammonium chloride salt during the BGP tends to increase the degree of superficial chloride contamination of the HDGS and, the water and/or chromate quenching also contribute for this contamination. In general, the chromated HDGS presented worst performances. The high pressure hydroblasting and the handled scrub cleaning with an abrasive sponge and hot distilled water were the surface preparations for painting that provided the best performances of paint systems.
|
59 |
Estudo da substituição de aço convencional por aço de baixa liga e alta resistência (BLAR) em módulo estruturalCruz, Magnus Geder Henz 26 June 2006 (has links)
Foram estudados dois tipos de aços, aço convencional ZAR 230 (ZAR - Zincagem de alta resistência) e aço microligado ZSTE 380 (segundo norma SEW 093), sendo que foram avaliadas as suas propriedades mecânicas visando a substituição do aço convencional por aço microligado na estrutura tubular de uma carroceria para veículos de transporte coletivo de passageiros. O aço convencional vem sendo utilizado pela indústria de carrocerias há vários anos, já o aço microligado é utilizado basicamente em estruturas específicas que requeiram boas propriedades mecânicas e conseqüentemente redução de peso. A análise de viabilidade para a substituição de aço convencional por aço microligado em um módulo estrutural completo requereu uma série de ensaios: ensaios padronizados em laboratório foram executados para avaliação de suas principais propriedades mecânicas e químicas; ensaios de nós estruturais submetidos a uma carga forneceram informações para o uso em software de elementos finitos tanto para execução de cálculos estruturais, quanto para calibração de resultados. Os módulos estruturais foram preparados de acordo com as regulamentações ECE R66-00 (mercado europeu) e CONTRAN 811/96 (mercado brasileiro) e foram ensaiados exaustivamente até se obter o melhor resultado de deslocamento comparativamente aos dois materiais analisados. A validação da estrutura tubular foi obtida com a utilização do software Ansys Workbench 9.0 e a confecção de estrutura representativa de uma carroceria ensaiada conforme regulamentação CONTRAN 811/96. / Submitted by Marcelo Teixeira (mvteixeira@ucs.br) on 2014-05-05T19:51:22Z
No. of bitstreams: 1
Dissertacao Magnus Geder Henz Cruz.pdf: 4706762 bytes, checksum: 44526b5417018356b3a33f57c828c75e (MD5) / Made available in DSpace on 2014-05-05T19:51:22Z (GMT). No. of bitstreams: 1
Dissertacao Magnus Geder Henz Cruz.pdf: 4706762 bytes, checksum: 44526b5417018356b3a33f57c828c75e (MD5) / Two kinds of steel were studied, conventional steel ZAR 230 (a standard for high strength galvanizing) and microalloyed steel ZSTE 380 (according to the regulation SEW 093). The study of its mechanical properties aimed to replace the steel for microalloyed steel in bodywork s tubular structure for collective transport vehicles of passengers. The conventional steel has been used for the bodywork industry for years, and the microalloyed steel is basically used in specific structures, those who require good mechanical properties and mass reduction. The analysis of the feasibility for the replacement of conventional steel for microalloyed steel in a complete structural model requires a series of tests. Lab tests were done to evaluate their main mechanical and chemical properties. The tests of the structural nodes and the structural behaviour when subjected to a load provided information to be used in the finite elements method software to do structural calculation and to calibrate the results. The structural modules were prepared according to the regulations ECE R66-00 (European market) and CONTRAN 811/96 (Brazilian market) and these modules were tested exhaustively to achieve the best displacement between the two materials that were analysed comparatively. The validation of the tubular structure was obtained using the software Ansys Workbench 9.0 and the production of the representative structure of a bodywork tested according the regulation CONTRAN 811/96.
|
60 |
Contaminação com sal de cloreto e cromatização da superfície do aço zincado no processo não-contínuo de zincagem por imersão a quente: influência no desempenho de tintas e determinação de pré-tratamentos para pintura adequados. / Chloride salt contamination and chromate quenching of galvanized steel on the batch galvanizing process: the influence on paint performance and the determination of suitable surface preparation for painting.Jean Vicente Ferrari 17 May 2006 (has links)
O processo industrial não-contínuo de zincagem por imersão a quente (ZIQ) pode ocasionar a contaminação superficial do aço-carbono zincado por imersão a quente (AZIQ) com resíduos de cloreto. Estes resíduos, se não forem efetivamente eliminados, podem influenciar negativamente no desempenho dos esquemas de pintura dos sistemas dúplex (zincagem mais pintura). Sabe-se que no processo de ZIQ, a cromatização é amplamente utilizada, entretanto, o efeito que este pós-tratamento exerce no desempenho dos esquemas de pintura ainda não é bem estabelecido. Neste contexto, este trabalho teve como objetivos: I - verificar o grau de contaminação no AZIQ com sal de cloreto devido ao próprio processo de ZIQ; II - verificar os efeitos da contaminação com sal de cloreto e da cromatização do processo ZIQ no desempenho de tintas aplicadas sobre o AZIQ; e III determinar pré-tratamentos para pintura adequados para o bom desempenho das tintas aplicadas sobre o AZIQ. A metodologia adotada para alcançar o objetivo I envolveu a zincagem de chapas de aço-carbono em diferentes prestadores de serviço de ZIQ, em diferentes condições. Estas chapas zincadas foram analisadas por microanálise química qualitativa por espectrometria de dispersão de energia (EDS) em microscópio eletrônico de varredura (MEV) e pela determinação dos teores de cloreto superficiais, por método de extração com água em ebulição. A partir dos resultados obtidos para se alcançar o objetivo I, foi possível definir as condições no processo de ZIQ que potencialmente causam maior contaminação da superfície do AZIQ com sal de cloreto. Assim, para se alcançar os objetivos II e III, chapas de aço-carbono foram zincadas naquelas condições de máxima contaminação com sal de cloreto e parte delas foi submetida ao pós-tratamento de cromatização. Em seguida, uma grande parte destas chapas zincadas (cromatizadas ou não) foi submetida aos pré-tratamentos para pintura de desengraxe com solvente orgânico, de hidrojateamento a alta pressão, de jateamento abrasivo ligeiro e de ação mecânica com esponja abrasiva e água quente. Finalmente, as chapas zincadas, incluindo as não submetidas aos pré-tratamentos, foram pintadas com uma demão de tinta de aderência mais uma demão de tinta de acabamento. As chapas zincadas e pintadas foram submetidas a ensaios acelerados (imersão em água destilada e exposição em câmara de umidade saturada) e não-acelerados de corrosão (exposição em estação de corrosão atmosférica) e avaliadas por meio dos ensaios tradicionais de acompanhamento de desempenho (grau de empolamento e ensaios de aderência de tinta) e eletroquímicos (medida de potencial de circuito aberto, curva de polarização e espectroscopia de impedância eletroquímica E.I.E.). Algumas chapas zincadas, antes da pintura, foram submetidas aos ensaios de caracterização física (exame microestrutural e morfológico em MEV e rugosidade superficial), química microanálise por EDS, difração de raios X e teor de cloreto superficial pelo método de extração com água em ebulição) e eletroquímica. Os resultados obtidos, neste estudo, permitiram verificar que a aplicação adicional de sal cloreto de amônio sólido durante o processo de ZIQ tende a aumentar o grau de contaminação superficial do AZIQ com cloreto e, as etapas de resfriamento e/ou de cromatização do processo também contribuem para esta contaminação. No geral, o desempenho do AZIQ cromatizado teve desempenho inferior em relação ao não-cromatizados. O hidrojateamento a alta pressão e a lavagem com água e ação mecânica foram os prétratamentos que proporcionaram os melhores desempenhos dos esquemas de pintura. / The batch galvanizing process (BGP) can lead to surface contamination of hot-dip galvanized steel (HDGS) with chloride residues. If these residues are not effectively eliminated, they can influence negatively on the performance of duplex systems (galvanizing plus painting). It is known that the chromate quenching is widely used in the BGP, however the effect of this post-treatment on the performance of duplex systems is not well established yet. In this sense, this work aimed: I to verify the contamination degree of HDGS with chloride salt due to the BGP itself; II to verify the effects of the chloride salt contamination and chromate quenching on the performance of paints applied on HDGS; and III to determine the suitable surface preparation for painting in order for obtaining a good paint performance applied on HDGS. The adopted methodology to achieve goal I involved the galvanizing of steel plates in different service renderings with BGP, in different conditions. These HDGS plates were submitted to the qualitative energy dispersive microanalyses (EDS) in scanning electron microscopy (SEM) and to the determination of superficial chloride contents by the boiling water extraction method. From the obtained results, the conditions in the BGP that potentially lead to greater surface contamination of HDGS with chloride salt were determined. Thus, to achieve goals II and III, steel plates were galvanized under the maximum chloride salt contamination condition and part of them were submitted to chromate quenching. After that, a great part of these HDGS plates (chromated or non chromated quenching) was submitted to the surface preparations for painting through organic solvent cleaning, high pressure hydroblasting, sweep blasting and handled scrub cleaning with an abrasive sponge and hot distilled water. Finally, the HDGS plates, including those not submitted to the surface preparations for painting, were painted with one coat of primer plus one coat of finishing paint. The HDGS painted plates were submitted to accelerated (distilled water immersion and humidity chamber exposure) and non accelerated (atmospheric exposure) corrosion tests and their performance were verified by means of traditional tests (degree of blistering and paint adhesion) and electrochemical measurements (open circuit potential, polarization curve and electrochemical impedance spectroscopy E.I.S.). Before painting, some HDGS plates were submitted to tests for physical (microstructural and morphological analyses in MEV and surface roughness), chemical (EDS, X-ray diffraction and superficial chloride contents by the boiling water extraction method) and electrochemical characterization. The obtained results allowed verifying that the additional application of solid ammonium chloride salt during the BGP tends to increase the degree of superficial chloride contamination of the HDGS and, the water and/or chromate quenching also contribute for this contamination. In general, the chromated HDGS presented worst performances. The high pressure hydroblasting and the handled scrub cleaning with an abrasive sponge and hot distilled water were the surface preparations for painting that provided the best performances of paint systems.
|
Page generated in 0.0568 seconds