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Obtencao do cermet Ni-ZrOsub(2) por moagem de alta energia / Cermet Ni-ZrO2 by mechanical alloyingLEITE, DOUGLAS W. 09 October 2014 (has links)
Made available in DSpace on 2014-10-09T12:27:20Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:14Z (GMT). No. of bitstreams: 0 / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP
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Obtencao do cermet Ni-ZrOsub(2) por moagem de alta energia / Cermet Ni-ZrO2 by mechanical alloyingLEITE, DOUGLAS W. 09 October 2014 (has links)
Made available in DSpace on 2014-10-09T12:27:20Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:14Z (GMT). No. of bitstreams: 0 / A obtenção do Cermet de níquel-zircônia via moagem de alta energia (Mechanical Alloying MA) foi estudado visando a preparação de anodos de células a combustível de óxido sólido (SOFC). O níquel metálico foi adicionado em três concentrações: 30, 40 e 50% em volume. As operações de moagem foram conduzidas em moinho vibratório de alta energia do tipo SPEX. Estudou-se a influência do tempo de moagem, a eficiência de aditivos para controle do processo, tipo e geometria dos potes de moagem. A influência destas variáveis foram avaliadas através de análises de tamanho de partículas, determinação de área superficial e morfologia do material resultante. O uso de pote de teflon resultou em contaminação por carbono. Por outro lado, o uso de pote de aço aumenta a contaminação por impurezas metálicas. As diversas geometrias projetadas para os potes mostraram que potes com maiores raios de concordância (R.15) apresentaram melhor rendimento. Após a conformação e sinterização a 1300°C em atmosfera de argônio, as amostras apresentaram valores de densidade entre 60 a 80% da densidade teórica. As microestruturas observadas por microscopia eletrônica de varredura revelaram uma boa homogeneidade na distribuição de fases do Cermet. A técnica de moagem de alta energia apresentou-se como boa opção na fabricação de Cermet Ni-ZrO2. / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP
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Cermety a jejich efektivní využití / Cermets and theirs effective useVaněček, Stanislav January 2009 (has links)
The Thesis described within the scope of the Master Program is focused on cermets, which belong among cutting materials. The introductory portion of the Thesis presents the characteristics of cermets from the perspective of production, physical-mechanical characteristics, marking and usage in cutting. The core portion of the Thesis focuses on the role of cermets in the category of leading world producers of tools and instrumental materials, cutting evaluation, and the suggested working conditions of cermets in lathing operations. The working conditions are prepared for steel and cast iron. The conclusion of the Thesis focuses on a technical-economical analysis of cermets.
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Cermety a jejich efektivní využití / Cermets and theirs effective useHanousek, Petr January 2011 (has links)
This thesis deals with cermets as a tool material. In the Preamble, the types, production, labeling and properties of cermets are analyzed. The main part of the thesis introduces cermets in the range of manufacturing by the world leading producers of tools and tool materials. The Conclusion of the thesis summarizes the evaluation of tool cutting abilities and recommended working conditions guaranteeing the efficient use of cermets.
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ASSESSMENT OF THE WEAR AND CORROSION BEHAVIOUR OF TITANIUM CARBIDE-STAINLESS STEEL COMPOSITESChukwuma Candidus, Onuoha 17 June 2013 (has links)
Ceramic metal composites, or cermets, currently have widespread applications in the chemical, automotive and oil and gas sectors, due to their combination of high wear resistance, and aqueous corrosion resistance. In the present study, a family of novel titanium carbide (TiC)-stainless steel cermets has been produced as potential materials for use as erosion and corrosion resistant materials. The development of the TiC-stainless steel cermets is based on a simple melt infiltration technique, with the stainless steel “binder” contents varied from 5 to 30 vol.%, using the austenitic grades 304L and 316L, and the martensitic grade 410L. These materials have subsequently been evaluated for their wear and corrosion response, as well as characterisation of their basic mechanical properties and microstructure.
Results from wear and corrosion studies show an improvement in wear and corrosion resistance of the cermets at lower steel binder content . / The original abstract from thesis is below. Ceramic metal composites, or cermets, currently have widespread applications in the chemical, automotive and oil and gas sectors, due to their combination of high wear resistance, and aqueous corrosion resistance. In the present study, a family of novel titanium carbide (TiC)-stainless steel cermets has been produced as potential materials for use as erosion and corrosion resistant materials. The development of the TiC-stainless steel cermets is based on a simple melt infiltration technique, with the stainless steel “binder” contents varied from 5 to 30 vol.%, using the austenitic grades 304L and 316L, and the martensitic grade 410L. These materials have subsequently been evaluated for their wear and corrosion response, as well as characterisation of their basic mechanical properties and microstructure.
Reciprocating wear tests involved a ball-on-flat geometry (using a WC-Co counter face sphere), with loads varied from 20 to 80 N, for up to 120 minutes. The wear tracks were assessed using a high-resolution optical profilometer, in order to determine the wear volume. The specific wear rate of the cermets was found to increase with both the applied load and the steel binder content. To investigate the morphology of worn surfaces, scanning electron microscopy (SEM), and associated energy dispersive x-ray spectroscopy (EDS) were used, in order to fully understand the operative wear mechanisms. A transition from two- to three-body abrasive wear was observed, together with the formation of a oxygen-rich tribolayer, indicating that adhesive wear was also occurring on the cermets.
In order to assess the electrochemical behaviour of the cermets in a simulated seawater environment, the samples were evaluated using potentiodynamic, cyclic and potentiostatic polarisation tests, with basic corrosion parameters and rates subsequently determined through Tafel extrapolation and weight loss measurement. Each stage of electrochemical assessment was then evaluated by characterising the corroded surfaces and solution using SEM, EDS and inductively coupled plasma optical emission spectrometry. Microstructural observations using SEM images revealed significant degradation of the samples, with steel binder preferentially dissolved while TiC remained relatively unaffected. The corrosion rate of the cermets increases with steel binder content, which is attributed to the preferential dissolution of the binder.
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Χαρακτηρισμός και έλεγχος ιδιοτήτων των μικτών οξειδίων στο σύστημα ZrO2-Y2O3-TiO2 (Cr2O3) καθώς και των κεραμομεταλλικών Ni/ZrO2-Y2O3-TiO2, ως υλικών ανόδου κελίου καυσίμου στέρεου ηλεκτρολύτη (SOFC) / Physical characterization and properties control of the ZrO2-Y2O3-TiO2 (Cr2O3) mixed oxides as well as the Ni/ZrO2-Y2O3-TiO2, cermets as anode materials of solid oxide fuel cell (SOFC)Σκαρμούτσος, Διονύσιος Σ. 24 June 2007 (has links)
Στα πλαίσια της αναζήτησης νέων µεθόδων παραγωγής ενέργειας υψηλής απόδοσης και φιλικής προς το περιβάλλον, ένα µεγάλο µέρος των ερευνητικών δραστηριοτήτων σε διεθνή κλίµακα έχει στραφεί στην ανάπτυξη της τεχνολογίας των κελίων καυσίµου στερεού ηλεκτρολύτη, SOFC’s (Solid Oxide Fuel Cell’s). Λόγω της φιλικότητάς τους προς το περιβάλλον τα SOFC’s µπορεί να εισαχθούν για χρήση και σε αστικές περιοχές, όπου παράλληλα µε την παραγόµενη ηλεκτρική ενέργεια, είναι δυνατόν να αξιοποιηθεί και η εκλυόµενη θερµική ενέργεια για θέρµανση χώρων, αυξάνοντας συνολικά την αποτελεσµατικότητά τους. Ένα από τα µειονεκτήµατα που εµφανίζονται κατά την µακρόχρονη λειτουργία ενός «State of the art» κελίου καυσίµου αποτελούµενο από Ni/YSZ-κεραµοµεταλλικό (άνοδος) – YSZ (ηλεκτρολύτη) – LaMnO3 περοβσκίτης (κάθοδος) – LaCrO3 περοβσκίτης (συνδέτης) είναι η υποβάθµιση της απόδοσής του, η οποία µεταξύ άλλων οφείλεται και στην αστάθεια της µικροδοµής του κεραµοµεταλλικού ηλεκτροδίου της ανόδου, λόγω συσσωµάτωσης της µεταλλικής φάσης. Στόχος της εργασίας ήταν η βελτίωση της ευστάθειας της µικροδοµής, καθώς και η διερεύνηση της δυνατότητας ελάττωσης του ποσοστού συµµετοχής της µεταλλικής φάσης στο κεραµοµεταλλικό υλικό του ηλεκτροδίου της ανόδου, χωρίς σηµαντική απώλεια σε ηλεκτρική αγωγιµότητα. Για τον σκοπό αυτό παρασκευάσθηκαν, χαρακτηρίσθηκαν και ελέγχθηκαν οι ιδιότητες µικτών κεραµικών οξειδίων επιλεγµένων συνθέσεων του τριµερούς συστήµατος ZrO2-Y2O3-TiO2 (η Cr2O3) καθώς και τα αντίστοιχα κεραµοµεταλλικά Ni/ZrO2-Y2O3-TiO2 µε προσθήκη 30,40 και 45 vol% Ni. Aπό τα αποτελέσµατα προέκυψε ότι σε θερµοκρασία πύρωσης 1400ºC σχηµατίζονται µικτά οξείδια µε την κυβική δοµή του πλέγµατος φθορίτη και συντελεστή θερµικής διαστολής αντίστοιχο του ηλεκτρολύτη (YSZ). Η ηλεκτρική τους αγωγιµότητα σε ατµόσφαιρα Ar+4%H2 είναι µικτού τύπου (ιοντική + ηλεκτρονιακή), όµως λόγω της χαµηλής απόλυτης τιµής στην θερµοκρασιακή περιοχή λειτουργίας του κελίου καυσίµου (900-1000ºC) δεν προσφέρονται για χρήση αυτούσια, ως κεραµικές άνοδοι. ΠΕΡΙΛΗΨΗ-ABSTRACT 6 Από πειράµατα διαβροχής στο σύστηµα Ni σε επαφή µε τα µικτά οξείδια προέκυψε ότι η παρουσία TiO2 βελτιώνει την συνάφεια και ως εκ τούτου την ισχύ του δεσµού στην διεπιφάνεια µετάλλου/κεραµικού. Η βελτίωση των διεπιφανειακών ιδιοτήτων έχει σαν αποτέλεσµα των ελάττωση του συντελεστού διαστολής των κεραµεταλλικών και την καλλίτερη µηχανική προσαρµογή τους στον ηλεκτρολύτη (YSZ).Επίσης, λόγω της µείωσης του ρυθµού συσσωµάτωσης των σωµατιδίων της µεταλλικής φάσης, οι τιµές της ηλεκτρικής αγωγιµότητας των κεραµοµεταλλικών παραµένουν σε υψηλά επίπεδα και µετά από µακροχρόνια παραµονή σε συνθήκες λειτουργίας (1000ºC, 1000h). Πρώτες ηλεκτροχηµικές µετρήσεις σε κελία καυσίµου µε κεραµοµεταλλική άνοδο, αποτελούµενη από επιλεγµένη σύνθεση µικτού οξείδίου του τριµερούς συστήµατος ως κεραµικής συνιστώσας, έδωσαν ενθαρρυντικά αποτελέσµατα αφήνοντας σηµαντικά περιθώρια για επίτευξη ικανοποιητικών επιδόσεων, µε βελτίωση του τρόπου κατασκευής. / Within the research framework for the development of alternative, friendly to the environment methods for the production of energy, significant effort is focusing on the SOFC’s (Solid Oxide Fuel Cell’s) technology. Due to their low pollutant emissions fuel cells can be applied inside civil areas were the electrical power can be used together with the thermal energy generated by the cell, increasing the total performance of the device. The “state of the art” fuel cell structure is the anode electrode (Ni/YSZ cermet), the electrolyte (YSZ), the cathode electrode (LaMnO3 perowskite) and the interconnector (LaCrO3 perowskite). One of the disadvantages of fuel cells is the performance degradation due to the instability of the YSZ/Ni anode electrode microstructure caused by metal phase sintering. This work aims to the improvement of microstructure stability as well as the possibility of reducing the amount of the metallic phase to the anode cermet without affecting its electrical properties. New ceramic materials of the ternary system ZrO2-Y2O3-TiO2 (or Cr2O3) were produced and characterized as well as their corresponding cermets Ni/ZrO2-Y2O3-TiO2 by the addition of 30,40 and 45 vol% Ni. After calcination at 1400ºC mixed oxides are formed having cubic fluorite crystal structure and similar thermal expansion properties to the YSZ ceramic oxide. The electrical conductivity in reducing atmosphere Ar+4%H2 is of electronic and ionic type but due to the low values in the working temperature range of a fuel cell (900-1000ºC) they cannot be used independently as anode materials. Wetting experiments of the system Ni in contact to those mixed oxides showed that TiO2 presence enhances the adherence and the bond strength at the metal ceramic interface. Improvement of the interfacial properties results to the decrease of cermets thermal expansion improving in this way the mechanical adjustment of the anode to the electrolyte. Also due to the decrease of the sintering tendency of the metallic phase particles, the electrical conductivity values remain at high values after long term annealing at high temperature (1000ºC, 1000h). Early electrochemical tests performed to fuel cells having a selected anode material showed encouraging results leaving space for improvement especially to the construction methods used in order to achieve satisfactory performance.
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Technologické, ekonomické a ekologické aspekty použití mazání mlhou / Technological, economical and ecological aspects of mist lubricationTlapák, Michal January 2009 (has links)
The assessment of MQL technology application in reaming process was elaborated in this diploma work. The evaluation of energy intensity was carried out in terms of specific cutting force during reaming of austenitic stainless steel work piece by using HSS reamers. The comparison of economic costs in the case of the application of MQL technology in production was made. Confrontation of oil mist removal principles. At the conclusion the evaluation of ecological benefits for the environment and the positive influence on the working environment cleanness was defined.
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The development of alternative cathodes for high temperature solid oxide electrolysis cellsYue, Xiangling January 2013 (has links)
This study mainly explores the development of alternative cathode materials for the electrochemical reduction of CO₂ by high temperature solid oxide electrolysis cells (HTSOECs), which operate in the reverse manner of solid oxide fuel cells (SOFCs). The conventional Ni-yttria stabilized zirconia (YSZ) cermets cathode suffered from coke formation, whereas the perovskite-type (La, Sr)(Cr, Mn)O₃ (LSCM) oxide material displayed excellent carbon resistance. Initial CO₂ electrolysis performance tests from different cathode materials prepared by screen-printing showed that LSCM based cathode performed poorer than Ni-YSZ cermets, due to non-optimized microstructure. Efforts were made on microstructure modification of LSCM based cathodes by means of various fabrication methods. Among the LSCM/YSZ graded cathode, extra catalyst (including Pd, Ni, CeO₂, and Pt) aided LSCM/GDC (Gd₀.₁Ce₀.₉O₁.₉₅) cathode, LSCM impregnated YSZ cathode, and GDC impregnated LSCM cathode, the GDC impregnated LSCM cathode, with porous LSCM as backbone for finely dispersed GDC nanoparticles, was found to possess the desired microstructure for CO₂ splitting reaction via SOEC. Incorporating of 0.5wt% Pd into GDC impregnated LSCM cathode gave rise to an Rp of 0.24 Ω cm² at open circuit voltage (OCV) at 900°C in CO₂-CO 70-30 mixture, comparable with the Ni/YSZ cermet cathode operated in the identical conditions. Meanwhile, the cathode kinetics and possible mechanisms of the electrochemical reduction of CO₂ were studied, and factors including CO₂/CO composition, operation temperature and potential were taken into account. The current-to-chemical efficiency of CO₂ electrolysis was evaluated with gas chromatography (GC). The high performance Pd and GDC co-impregnated LSCM cathode was also applied for CO₂ electrolysis without protective CO gas in feed. This cathode also displayed superb performance towards CO₂ electrochemical reduction under SOEC operation condition in CO₂/N₂ mixtures, though it had OCV as low as 0.12V at 900°C. The LSCM/GDC set of SOEC cathode materials were investigated in the application of steam electrolysis and H₂O-CO₂ co-electrolysis as well. For the former, adequate supply of steam was essential to avoid the appearance of S-shaped I-V curves and limited steam transport. The 0.5wt% Pd and GDC co-infiltrated LSCM material has been found to be a versatile cathode with high performance and good durability in SOEC operations.
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Μελέτη των ροφημένων ειδών άνθρακα κατά την ισορροπία της διασπαστικής ρόφησης του CH4 σε κεραμοδιμεταλλικούς ηλεκτροκαταλύτες βασισμένους στο νικέλιοΤριανταφυλλόπουλος, Νικόλαος 25 June 2007 (has links)
Στην παρούσα διδακτορική διατριβή έγινε η μελέτη της φύσης των επιφανειακών ειδών άνθρακα που δημιουργούνται στην επιφάνεια κεραμομεταλλικών υλικών βασισμένα στο Ni-YSZ κατά την θερμοδυναμική ισορροπία της διασπαστικής ρόφησης του μεθανίου. Κύριος στόχος της μελέτης ήταν να διερευνηθεί η επίδραση της παρουσίας ενός δεύτερου μετάλλου στο Ni-YSZ, όσον αφορά τον σχηματισμό και/ή την αναστολή του ανενεργού άνθρακα. Η επικάλυψη της επιφάνειας του Ni με μικρή ποσότητα Au (≤1%at σε σχέση με το Ni) επηρέασε σημαντικά την κινητική της διασπαστικής ρόφησης του CH4 και την ενέργεια δεσμού των ροφημένων ειδών CHx στην επιφάνεια του Ni. Ο σχηματισμός γραφιτικού άνθρακα παρεμποδίστηκε, ενώ η επιφανειακή δραστικότητα για την υδρογόνωση των CHx προς CH4 ήταν χαμηλότερη από ότι στον Ni-YSZ. Αυτό έχει ως αποτέλεσμα την υψηλότερη σταθερότητα και την επιμήκυνση του χρόνου ζωής των CHx πάνω στην επιφάνεια του NiAu/YSZ πριν την διάσπαση τους προς επιφανειακά καρβιδικά είδη. Με βάση τις πειραματικές μετρήσεις, προτάθηκε κινητικό μοντέλο για την περιγραφή της μερικής οξείδωσης του μεθανίου για την παραγωγή αερίου σύνθεσης. Οι αντιδράσεις οξείδωσης περιλαμβάνουν την οξείδωση των ειδών CHx προς CHxO και την επακόλουθη διασπασή τους σε υψηλές θερμοκρασίες (700 Κ) προς CO και H2, ενώ τα καρβιδικά είδη οξειδώνονται εκλεκτικά προς CO2 από χαμηλότερες θερμοκρασίες (500 Κ). Από αυτή την άποψη, η εκλεκτικότητα ως προς το αέριο σύνθεσης εξαρτάται από δύο παράγοντες: (i) τον χρόνο ζωής και την επιφανειακή συγκέντρωση των ειδών CHx, και (ii) τη θερμοκρασία διάσπασης των ειδών CHxO. Ως γενικό συμπέρασμα, ο ηλεκτροκαταλύτης Ni(1%at Au)/YSZ αναμένεται να έχει υψηλή αντοχή στην εναπόθεση άνθρακα όπως και εκλεκτικότητα για την μερική οξείδωση του CH4 προς αέριο σύνθεσης. / In order to investigate the possibility of the direct introduction of CH4 into a SOFC, the dissociative adsorption of CH4 and the nature of the various carbon adspecies on Ni-based cermets were studied in the present thesis by means of thermodynamic equilibrium measurements and temperature programming methods. The aim of this study was mainly to elucidate the effect of a second metal addition on Ni-YSZ, regarding the formation and/or inhibition of inactive carbon. The decoration of the Ni surface with very small quantity of Au (≤1at% with respect to Ni) affected significantly both the kinetics of CH4 dissociative adsorption and the binding strength of the adsorbed CHx species on the Ni surface. The formation of graphitic carbon was significantly inhibited, while the surface reactivity towards the hydrogenation of CHx species into CH4 was lower than on the unmodified Ni/YSZ surface. This resulted in the higher stability and elongation of the CHx species life time on the NiAu/YSZ surface prior to their decomposition into surface carbidic species. Based on the experimental results and discussion, a kinetic model is proposed for the description of the partial oxidation of methane towards the production of synthesis gas. The oxidation reactions involve both the oxidation of CHx species into CHxO and its subsequent decomposition at elevated temperatures (700 K) into CO and H2, while carbidic species are selectively oxidized into CO2 at temperatures as low as 500 K. In this respect, the selectivity towards synthesis gas depends on two factors: (i) the lifetime and surface concentration of CHx species, and (ii) the decomposition temperature of the CHxO species. As a conclusion, the Ni(1%at Au with respect to Ni)/YSZ catalyst is expected to be highly carbon tolerant and selective catalyst/electrode for the CH4 partial oxidation reaction for the production of synthesis gas.
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REACTION PROCESSING AND CHARACTERIZATION OF ALUMINUM OXIDE/CHROMIUM CERAMIC/METAL COMPOSITESCamilla K McCormack (17538078) 03 December 2023 (has links)
<p dir="ltr">To decrease the use of fossil fuels that generate greenhouse gases, there has been a push to find alternative processes for electricity generation. An attractive renewable alternative is to use solar-thermal energy for grid level electricity production. One method used to generate electricity from the conversion of solar-thermal energy is concentrated solar power (CSP) via the power tower paradigm, which involves an array of mirrors that concentrate sunlight to a spot on a tower. The light heats up a heat transfer fluid which later transfers the thermal energy to a working fluid that expands so as to spin a turbine to generate electricity. Current CSP plants have a peak operation temperature of 550℃, but improvements to the heat exchanger are integral to increasing the peak operation temperature of such plants to a 750℃ target. Ceramic/metal composites (cermets) have been proposed for use as heat exchangers in these CSP plants due to the creep resistance of the ceramic component and toughness of the metal component. One potential material that has an attractive combination of properties for this application is the alumina/chromium (Al2O3/Cr) cermet, given the rigidity and creep resistance of the Al2O3 component and the high-temperature toughness of the Cr phase. Compared to other oxidation-resistant oxide/metal cermets, the Al2O3 and Cr components of this cermet have a relatively close average linear thermal expansion match from 25℃ to 750℃, which is advantageous due to the thermal gradients and thermal cycling of the heat exchanger during operation.</p><p dir="ltr">In this dissertation, the Al2O3/Cr cermet was produced via reaction forming (RF) or reactive melt infiltration (RMI). The RF method involves the reaction of Cr2O3 and Al constituent powder mixtures at high temperature and modest pressures to obtain dense Al2O3/Cr plates. The RMI method involves immersing a shaped porous Cr2O3 preform into an Al or Al-Cr alloy bath to infiltrate and react to form Al2O3/Al-Cr plates. For both methods, the plate microstructure was analyzed for the various reaction conditions. The adiabatic temperature increase for the reaction between Cr2O3 and Al liquid or Al-Cr liquid alloys was calculated. Thermal properties (linear coefficient of thermal expansion, heat capacity, thermal diffusivity, thermal conductivity) and mechanical properties for the RF Al2O3/Cr plates were also measured. Lastly, the reaction kinetics between dense, polycrystalline Cr2O3 and a liquid Al-35at% Cr alloy were experimentally determined at various temperatures and compared to models based on different rate-limiting steps.</p>
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