Global ETD Search

21	Low Alloy Steel Susceptibility to Stress Corrosion Cracking in Hydraulic Fracturing Environment Anyanwu, Ezechukwu John 06 June 2014 (has links) No description available. Chemical Engineering Chemistry Materials Science Slow Strain Rate Tests Low Alloy Steel AISI 4340 Localized Corrosion Surface Film Analysis
22	A Mechanistic Model for CO<sub>2</sub> Localized Corrosion of Carbon Steel Li, Hui 26 July 2011 (has links) No description available. Chemical Engineering Engineering localized corrosion CO<sub>2</sub> corrosion corrosion modeling galvanic corrosion uniform corrosion mechanistic model
23	Chromium-free consumable for welding stainless steel: corrosion perspective Kim, Yeong Ho 02 December 2005 (has links) No description available. Engineering, Materials Science stainless steel corrosion weld hexavalent chromium nickel alloy copper palladium molybdenum dilution segregation localized corrosion breakdown artificial pit electrode repassivation deactivation
24	Mechanistic studies of localized corrosion of Al alloys by high resolution in-situ and ex-situ probing techniques Davoodi, Ali January 2007 (has links) A multi-analytical approach based on in-situ and ex-situ local probing techniques was employed to investigate localized corrosion mechanisms of some aluminum alloys in chloride containing solutions, focusing on the influence of intermetallic particles (IMPs) in the alloys. In the EN AW-3003 alloy, SEM-EDS analysis revealed constituent and dispersoid IMPs. There are two types of constituent IMPs, with size ranging from 0.5 to several μm, and composition typically Al6(Fe,Mn) or Al12(Mn,Fe)3Si, respectively,having a Mn/Fe ratio of about 1:1. Fine dispersoids of 0.5 μm or less in size normally have the composition Al12Mn3Si1-2. Scanning Kelvin probe force microscopy (SKPFM measurements showed that the constituent IMPs have a higher Volta potential compared to the matrix, and the Volta potential difference increased with particle size, probably related to the composition of the IMPs. The SKPFM results also showed a Volta potential minimum in the boundary region adjacent to some larger IMPs. The open-circuit potential and electrochemical impedance spectroscopy measurements indicated local electrochemical activities occurring on the surface, and active-like dissolution in the acidic solutions, but a passive-like behavior in the near-neutral solutions. Infrared reflection-absorption spectroscopy measurements after exposure and thermodynamic calculations suggested the formation of mixtures of aluminum oxyhydroxide and acetate on the surface in acetic acid solutions. The formation and fraction of dominant species of the corrosion products depend on the pH of the solution, and aluminum chloride compounds may form at very low pH. Moreover, an integrated in-situ atomic force microscopy (AFM) and scanningelectrochemical microscopy (SECM) set-up was used to investigate the localized activities on the surface. With a dual mode probe, acting as both AFM tip and SECM microelectrode, concurrent topography and electrochemical current images were obtained on the same area of the surface. Numerical simulations of the SECM suggested a micrometer lateral resolution under favorable conditions and the ability to resolve μmsized active sites with a separation distance of about 3 μm or larger. The simulations were verified by SECM mapping of the aluminum alloys in the chloride solutions. The AFM/SECM measurements revealed enhanced cathodic activity on some larger IMPs and local anodic dissolution around larger IMPs. In-situ AFM monitoring confirmed preferential dissolution in the boundary region adjacent to some of these IMPs. The results elucidate the micro-galvanic effect and size effect of the IMPs during the initiation of localized corrosion of the Al alloys. Furthermore, differences in corrosion properties between EN AW-3003 and a newly developed Al–Mn–Si–Zr alloy were studied with a similar approach. Compared to EN AW-3003, the new alloy had a smaller number of particles with a large Volta potential difference relative to the matrix. In slightly corrosive solutions extensive localized dissolution and deposition of corrosion products occurred on EN AW-3003, whereas only a small number of corroding sites and “tunnel-like” pits occurred on the Al–Mn–Si–Zr alloy. The lower corrosion activity and the smaller tunnel-like pits resulted in lower material loss of the Al–Mn–Si–Zr alloy, which is beneficial for applications using a thin material. / QC 20100702 localized corrosion pitting aluminum alloy intermetallic particle Volta potential cathodic activity micro-galvanic effect size dependence SKPFM in-situ AFM integrated AFM/SECM numerical simulation micrometer resolution EIS. Chemistry Kemi
25	Initiation and Propagation of Localized Corrosion of Mild Steel in Marginally Sour Environments Zhang, Wei January 2020 (has links) No description available. Chemical Engineering Materials Science Oil and Gas Mild Steel Pitting Hydrogen Sulfide Corrosion Carbon Dioxide Corrosion Localized Corrosion Oxidation Pourbaix Diagram Phase Diagram SEM-EDS FIB-TEM in situ Raman Spectroscopy Mackinawite Magnetite
26	Thermodynamics and Kinetics of Hydrogen Sulfide Corrosion of Mild Steel at Elevated Temperatures Gao, Shujun 01 October 2018 (has links) No description available. Chemical Engineering Hydrogen sulfide high temperature corrosion X65 carbon steel iron oxide Fe3O4 iron sulfide mackinawite troilite pyrrhotite pyrite localized corrosion corrosion rate corrosion modeling, Pourbaix diagram oil and gas industry
27	Electrochemical studies of coatings and thin films Kang, Jiho 22 February 2006 (has links) No description available. Engineering, Materials Science S phase localized corrosion thin film corrosion Al alloys EQCM water uptake coating electrochemical impedance spectroscopy EIS potentiostatic pulse testing PPT potential pulse
28	Contribution à l'étude des propriétés physico-chimiques des surfaces modifiées par traitement laser : application à l'amélioration de la résistance à la corrosion localisée des aciers inoxydables / Contribution to the study of physico-chemical properties of surfaces modified by last treatment : application to the enhancement of localized corrosion resistance of stainless stells Pacquentin, Wilfried 25 November 2011 (has links) Les matériaux métalliques sont utilisés dans des conditions de plus en plus sévères et doivent présenter une parfaite intégrité sur des périodes de plus en plus longues. L’objectif de ce travail de thèse est d’évaluer le potentiel d'un traitement de refusion laser pour améliorer la résistance à la corrosion d'un acier inoxydable de type 304L ; l’utilisation du laser dans le domaine des traitements de surface constituant un procédé en pleine évolution à cause des changements récents dans la technologie des lasers. Dans le cadre de ce travail, le choix du laser s’est porté sur un laser nano-impulsionnel à fibre dopée ytterbium dont les caractéristiques permettent la fusion quasi-instantanée sur quelques microns de la surface traitée, immédiatement suivie d'une solidification ultra-rapide avec des vitesses de refroidissement pouvant atteindre 1011 K/s. La combinaison de ces processus favorise l'élimination des défauts surfaciques, la formation de phases hors équilibre, la ségrégation d’éléments chimiques et la formation d’une nouvelle couche d’oxyde dont les propriétés sont gouvernées par les paramètres laser. Afin de les corréler avec la réactivité électrochimique de la surface, l’influence de deux paramètres laser sur les propriétés physico-chimiques de la surface a été étudiée : la puissance du laser et le taux de recouvrement des impacts laser. Pour clarifier ces relations, la résistance à la corrosion par piqûration des surfaces traitées a été déterminée par des tests électrochimiques. Pour des paramètres laser spécifiques, le potentiel de piqûration d'un acier inoxydable de type 304L augmente de plus de 500 mV traduisant ainsi une meilleure tenue à la corrosion localisée en milieu chloruré. L’interdépendance des différents phénomènes résultant du traitement laser a rendu complexe la hiérarchisation de leur effet sur la sensibilité de l’alliage testé. Cependant, il a été montré que la nature de l’oxyde thermique formé au cours de la refusion laser et ses défauts sont du premier ordre pour l’amorçage des piqûres. / Metallic materials are more and more used in severe conditions with particularly strong request for improving their behavior in aggressive environment and especially over long periods. The objective of this PhD work is to estimate the potentiality of a laser surface melting treatment on the improvement of the stainless steel 304L corrosion resistance, surface treatments by laser can be revisited on the basis of a recent change in the laser technology. In the frame of this work, a nano-pulsed laser fiber was chosen : it allows the treated surface to be melted for few microns in depth, followed by an ultra-fast solidification occuring with cooling rates up to 1011 K/s. The combination of these processes leads to the elimination of the surface defects, the formation (trapping) of metastable phases, the segregation of chemical elements and the growth of a new oxide layer which properties are governed by the laser parameters. To correlate these latter to the electrochemical reactivity of the surface, the influence of two laser parameters on the physico-chemical properties of the surface was studied : the laser power and the overlap of the laser impacts. To support this approach, the pitting corrosion resistance of the samples was determined by standard electrochemical tests. For specific laser parameters, the pitting potential of a 304L stainless steel was increased by more than 500 mV corresponding to an important enhancement in localized corrosion resistance in chloride environment. The interdependence of the different phenomena resulting from the laser treatment lead to a quite complex prioritization of their role on the sensibility of the 304L. However, it was demonstrated that the nature of the thermal oxide formed during the laser surface melting and the induced defects are first-order parameters for the initiation of pits. Traitement de surface Refusion de surface Laser impulsionnel nanoseconde Acier inoxydable 304L Aciers inoxydables Corrosion localisée Piqûration Couche d’oxyde Caractérisations physico-chimiques Surface treatment Laser surface melting Nano-pulsed laser Stainless steel 304L Stainless steels Localized corrosion Pitting resistance Oxide layer Physico-chemical characterizations 620.16
29	The Effect of Flow on the Development and Retention of Iron Sulfide Corrosion ProductLayers Anyanwu, Ezechukwu John 04 June 2019 (has links) No description available. Chemical Engineering Chemistry Engineering Experiments Fluid Dynamics Materials Science Mechanical Engineering H2S Corrosion High shear stress Mechanical tester CFD simulation solution chemistry control Iron carbide UNS G10180 Pure Fe Impeller flow Flow loop Iron sulfides Mackinawite Localized corrosion FeS layers adhesive failure scratch test

Search results