Estudo da hidrogenação para pulverização de ligas à base de terras raras com Nb para eletrodos de hidreto metálico / Study of hydrogenation for pulverization of rare earth alloys with nb for metal hydride electrodes

Eliner Affonso Ferreira

22 February 2013

Neste trabalho foram estudadas as series de ligas La0,7Mg0,3Al0,3Mn0,4Co(0,5-x)NbxNi3,8 (x =0 a 0,5) e La0,7Mg0,3Al0,3Mn0,4Nb(0,5-x)Ni(3,8-x) (x =0,3; 0,5 e 1,3), como eletrodo negativo de baterias de Níquel Hidreto Metálico. A pulverização das ligas foi realizada com duas pressões de H2 (2 bar e 9 bar). A capacidade de descarga das baterias de níquel hidreto metálico foi analisada pelo equipamento de testes elétricos Arbin BT-4. As ligas, no estado bruto de fusão, foram analisadas por microscopia eletrônica de varredura (MEV), espectroscopia de energia dispersiva (EDS) e difração de raios-X. Com o aumento da concentração de nióbio nas ligas nota-se a diminuição da estabilidade cíclica das baterias e da capacidade máxima de descarga. A capacidade de descarga máxima obtida foi para a liga La0,7Mg0,3Al0,3Mn0,4Co0,5Ni3,8 (45,36 mAh) e a bateria que apresentou a melhor performance foi a liga La0,7Mg0,3Al0,3Mn0,4Co0,4Nb0,1Ni3,8 (44,94 mAh). / In this work were studied La.7Mg0.3Al0.3Mn0,4Co(0.5-x)NbxNi3.8 (x= 0 - 0.5) and La0,7Mg0,3Al0,3Mn0.4Nb(05+x)Co0,5Ni(3.8-x). (x=0.3; 0.5;1.3) alloys for negative electrodes of the Nickel-Metal Hydride batteries. The hydrogenation of the alloys was performed varying pressing of H2 (2 and 9 bar). The discharge capacity of the nickel-metal hydride batteries were analyzed in the Arbin BT-4 electrical test equipment. The as-cast alloys were analyzed by scanning electron microscopy (SEM), energy dispersive spectroscopy (EDX) and X-Ray diffraction. The increasing Niobium addition in the alloys decreased cycle life and the maximum discharge capacity of the batteries. The maximum discharge capacity was obtained with the La.7Mg0.3Al0.3Mn0,4Co0.5Ni3.8 (45.36 mAh) and the battery which presented the best performance was La.7Mg0.3Al0.3Mn0.4Co0.5Nb0.1Ni3.8 (44.94 mAh).

baterias

eletrodos

hidreto

nióbio

níquel

battery

electrode

hydride

nickel

niobium

Catalisadores de Ni promovidos com Mg e Nb para reforma a vapor do ácido acético como molécula modelo do bio-óleo / Ni Catalysts promoted with Mg and Nb for steam reforming of acetic acid as a molecular model of bio-oil

Francisco Guilherme Esteves Nogueira

26 September 2014

O desenvolvimento de tecnologias para geração de hidrogênio no Brasil tem se tornado um fator relevante, pois se trata de uma fonte de combustível limpa que pode ser obtida a partir de diversas matérias-primas renováveis. Entre essas tecnologias pode-se destacar a reforma a vapor do bio-óleo, proveniente da pirólise da biomassa. O bio-óleo consiste em uma mistura complexa de diversos compostos orgânicos oxigenados tais como: aldeídos, ácidos carboxílicos, cetonas, carboidratos, alcoóis, entre outros, sendo o ácido acético um dos compostos majoritários (∼12-15%), o qual pode ser utilizado como molécula modelo do bio-óleo em reações de reforma a vapor. Entretanto, a reforma a vapor do ácido acético apresenta algumas dificuldades, como a formação de coque na superfície dos catalisadores, o que pode resultar na desativação do mesmo. Dentro deste contexto, este trabalho teve como objetivo desenvolver catalisadores a base de níquel (Ni) promovidos com magnésio (Mg) e nióbio (Nb) suportados em alumina (γ-Al2O3), para aplicação na reforma a vapor do ácido acético, visando minimizar e/ou modificar a estrutura dos depósitos carbonáceos, bem como aumentar a atividade e seletividade para o hidrogênio. Para isso, sintetizaram-se inicialmente três catalisadores com diferentes teores de Ni, (10, 15 e 20%), suportados em alumina, sendo que o catalisador com 15% de Ni em massa foi o que apresentou melhor seletividade e atividade para a reforma a vapor do ácido acético. A partir da melhor carga de Ni, adicionaram-se quatro diferentes teores de Mg e Nb 1,0%; 2,5%; 5,0% e 10% em massa. Entre os catalisadores promovidos com Mg, o catalisador com 5,0% de Mg (15%Ni5%Mg/Al), apresentou uma conversão de 96% para o ácido acético, com seletividade para o hidrogênio em torno de 65% a 600 oC. Além disso, este catalisador apresentou menor taxa de formação de coque e menor tamanho de partícula de Ni0, comparado ao catalisador não promovido (15%Ni/Al), evidenciando que a adição de Mg pode prevenir a sinterização das partículas de Ni. Entre os catalisadores promovidos com Nb, o catalisador 15%Ni2,5%Nb/Al apresentou maior seletividade para o hidrogênio (∼73%) a 600o C comparado aos demais. Apesar de ter apresentado um maior tamanho de partícula Ni0, a adição de Nb aumentou a capacidade de decomposição do metano, proveniente da reação de decomposição e metanação do ácido acético, favorecendo a produção de hidrogênio, além de promover a formação de nanoestruturas de carbono. Assim, a adição de promotores catalíticos como os estudados neste trabalho pode contribuir para o aumento na produção de hidrogênio, seja pela redução nos depósitos carbonáceos ou pela modificação das estruturas de carbono formados na superfície dos materiais. / The development of technologies for generating hydrogen in Brazil has become an important factor because it is a source of clean fuel which can be obtained from different renewable raw materials. Among these technologies, the steam reforming of bio-oil from the pyrolysis of biomass can be highlighted. The bio-oil is a complex mixture of different oxygenated organic compounds such as aldehydes, carboxylic acids, ketones, carbohydrates and alcohols with acetic acid being one of the major compounds (∼12-15%), which may be used as a model molecule of bio-oil steam reforming reactions. However, the steam reforming of acetic acid presents some difficulties, such as coke formation on the surface of the catalysts, which may result in its deactivation. Thus, this work aimed to develop catalysts based on nickel (Ni) promoted with magnesium (Mg) and niobia (Nb) supported on alumina (γ-Al2O3), for application in steam reforming of acetic acid in order to minimize the formation of carbonaceous residues, as well as increase the activity and selectivity for hydrogen. For this purpose, initially three catalysts were synthesized with different Ni content, (10, 15 and 20%), and the catalyst with 15% Ni mass showed the best activity and selectivity for the steam reforming of acid acetic acid. From the best Ni loading, was added four different concentrations of Mg and Nb, 1%; 2.5%; 5% and 10% by weight. Among the catalysts promoted with Mg, the catalyst with 5% Mg (15% Ni5% Mg/Al) at a temperature of 600 °C, showed a 96% conversion of acetic acid, with selectivity to hydrogen of around 65 %. In addition, this catalyst showed lower rate of coke formation and lower Ni particle size compared to the non-promoted catalyst (15% Ni/Al), showing that the addition of Mg can prevent sintering of Ni particles. Among the catalysts promoted with Nb, the catalyst 15% Ni 2, 5% Nb/Al showed higher selectivity to hydrogen (∼73%) at 600 °C compared to the others. Despite having a larger particle size, the addition of Nb increased the capacity of decomposition of methane from of the decomposition reaction and methanation of acetic acid favoring the production of hydrogen and promoted the formation of nanostructures. Thus, the addition of catalytic promoters can contribute to the increase in hydrogen production, either by a reduction in carbonaceous deposits or the modification of structures formed on the surface of the materials.

bio-óleo e magnésio

hidrogênio

nióbio

bio-oil

hydrogen

magnesium

niobium

Estudo da atividade e estabilidade eletrocatalítica de materiais nanoestruturados Pt3Nb/C e Pt-Nb2O5/C para aplicações em células a combustível de eletrólito polimérico / Study of the activity, stability and electrocatalytic nanostructure materials Pt3Nb/C and Pt-Nb2O5/C for applications in fuel cells using polymeric electrolyte

Thairo de Araújo Rocha

21 October 2016

Este trabalho foi dividido em duas seções. Na primeira parte foi avaliado o desempenho de uma célula a combustível de eletrólito polimérico com ânodos de Pt/C e/ou Pt3Nb/C alimentada com hidrogênio contaminado com CO e oxigênio no cátodo. O material Pt3Nb/C 20% metal/C foi sintetizado por impregnação dos metais em carbono. Difratogramas de raios X mostraram evidências da formação de uma estrutura Pt3Nb-NbxOy, com os dados de microscopia eletrônica indicando que mesmo após tratamento térmico a 1000 °C é possível ter uma boa distribuição do tamanho das nanopartículas. Resultados de absorção de raios X mostraram que a um preenchimento dos níveis eletrônicos na banda 5d da Pt devido principalmente a distribuição maior do tamanho das nanopartículas do material Pt3Nb/C e a presença do Nb na estrutura, e que esse efeito tem um influência marcante nas respostas eletroquímicas observadas para a reação de eletroxidação de CO. Os dados da célula a combustível em conjunto com os dados extraídos com auxílio de um espectrômetro de massas mostraram definitivamente que o material Pt3Nb/C apresenta um desempenho muito superior a Pt/C em termos de tolerância ao CO presente no H2 usado como combustível. Na segunda parte do trabalho foram sintetizados usando-se o método de redução de íons em solução com ácido fórmico, dois materiais com nanopartículas de Pt suportadas em Nb2O5/C. Os materiais sintetizados foram avaliados em relação ao desempenho e estabilidade no cátodo de uma célula a combustível de eletrólito polimérico, com ânodos de Pt/C e cátodos com Pt/C e/ou Pt-Nb2O5-C, e alimentada com hidrogênio e oxigênio. De acordo com os dados de Absorção de Raios X, devido a presença do óxido ocorre a retirada de densidade eletrônica da banda 5d da Pt levando a um pequeno aumento da absorção verificado para os materiais sintetizados em relação ao material comercial. As imagens de Microscopia Eletrônica de Transmissão, mostram que o desempenho da célula diminui com o tempo de uso, principalmente devido a aglomeração das nanopartículas e corrosão do suporte de carbono. Em termos de estabilidade, a menor perda de área ativa verificada nos materiais suportados em Nb2O5/C aparentemente é o fator responsável pelo melhor desempenho desses materiais no cátodo em relação a reação de redução de oxigênio principalmente em longos períodos de operação da célula. / This work was divided into two parts. In the first part, the performance of a fuel cell with Nafion 115 as the polymer electrolyte was evaluated. The anodes were composed of Pt/C and/or Pt3Nb/C, which were fed with H2 containning 100 ppm of CO, while the cathode (Pt/C) was fed with O2. For the Pt3Nb/C (20 % metal/C) synthesis, the metals were impregnated on carbon, followed by heat treatment in a reducing atmosphere. X-Ray Diffraction results showed evidence of a Pt3Nb-NbxOy structure. The Transmission Electron Microscopy data indicated that even after heat-treating the material at 1000°C, it is possible to obtain a good nanoparticle size distribution. X-Ray Absorption results for Pt3Nb/C showed that electronic levels in the Pt 5d band are filled, mainly because of the better size distribution of the nanoparticles in this material, and because of the Nb presence in the structure. The later has a significant influence on the electrochemical responses observed for the CO electrooxidation reaction. The data obtained from the fuel cell coupled to a mass spectrometer definitely showed that Pt3Nb/C is much more Co-tolerant than Pt/C. In the second part, two materials composed of Pt supported on Nb2O5/C were synthesized by reducing ions with formic acid. The performance and stability of these materials as cathodes of a fuel cell were evaluated. In this case, the fuel cell with Nafion 115 as the polymer electrolyte was fed with H2/O2. Its anode was composed of Pt/C, and cathodes of Pt/C and/or Pt-Nb2O5-C. The X-Ray Absorption data reveled a decrease in the electronic density of the Pt 5d band, due to the presence of oxide, leading to a small increase of the absorption observed for the synthesized materials when compared to the commercial Pt/C. Transmission Electron Microscopy images showed nanoparticles agglomeration and corrosion of the carbon support in the cathode, decreasing the performance of the fuel cell over time. In terms of the stability, the better performance of the materials supported on Nb2O5/C in relation to the oxygen reduction reaction, over long periods of the fuel cell operation, is due to a small loss of the active areas of these materials.

Célula a combustível

Eletrocatálise

Platina-Nióbio

Electrocatalysis

Fuel Cell

Platinum-Niobium

Caracterização mecânica e microestrutural de aços médio carbono microligados ao nióbio e molibdênio / Mechanical and microstructural characterization of an niobium and molybdenum microalloyed medium carbon steels

Cunha, Adilto Pereira Andrade, 1981-

23 August 2018

Orientador: Paulo Roberto Mei / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica / Made available in DSpace on 2018-08-23T13:15:12Z (GMT). No. of bitstreams: 1 Cunha_AdiltoPereiraAndrade_D.pdf: 32849719 bytes, checksum: a54b97b2dde32f5f0d6b96ee877e51fb (MD5) Previous issue date: 2013 / Resumo: Neste trabalho foi estudada a influência da adição de molibdênio e nióbio na microestrutura e propriedades mecânicas de aços com 0,5 e 0,6 %C, utilizado na fabricação de rodas ferroviárias. A deformação dos aços foi aplicada através da laminação, em escala de laboratório, simulando o forjamento no processo real de fabricação. As amostras foram aquecidas a 1250 °C para solubilização do nióbio, sendo então laminadas em 4 passes, a partir de 1200 °C, sofrendo uma deformação total (redução em altura) de 67%, seguida de resfriamento ao ar. Posteriormente, os aços C5 e C5Nb foram submetidos a um tratamento térmico de têmpera e revenimento. Foram analisadas amostras dos aços por microscopia óptica, eletrônica de varredura e transmissão e também foram realizados ensaios mecânicos em todas as condições. Após a laminação entre 1200 e 1120 °C, observou-se que a adição de molibdênio e nióbio promoveu um aumento da resistência mecânica em 171 e 119 MPa no limite de escoamento e 61 e 66 MPa no limite de resistência à tração, nos aços C5Nb e C6Nb, respectivamente, devido à precipitação de carbonetos de nióbio, mantendo a mesma ductilidade e tenacidade para o aço C5Nb, mas houve uma queda dessas propriedades para os aço C6Nb. Após a laminação com posterior têmpera e revenimento a 500°C, simulando o mesmo tratamento feito na roda ferroviária, o aço C5 apresentou dureza, resistência mecânica e alongamento iguais à do aço da MWL, porém com redução de área e energia absorvida maiores que o aço da MWL. O aço C5Nb apresentou maiores valores de resistência mecânica, ductilidade e tenacidade que o aço da MWL, o que demonstra seu potencial para melhorar a qualidade das rodas ferroviárias atualmente produzidas / Abstract: The influence of molybdenum and niobium addition on the microstructure and mechanical properties of 0,5 and 0,6 %C steels used in railway wheels was studied. The deformation was applied by rolling, in a thermo mechanical processing laboratory, simulating the forging in the real process of manufacture. The samples were heated to 1250 °C to ensure dissolution of niobium and hot rolled in four passes, starting at 1200 °C, undergoing a total reduction of 67%, followed by air cooling. Steels were water quenched and tempered (heat treatment). Steel samples, before and after rolling and heat treated were analyzed by optical and scanning electron microscopy. Mechanical tests were performed on the all conditions. After rolling between 1200 and 1120 ° C, it was found that the addition of molybdenum and niobium resulted in an increase of mechanical strength at 171 and 119 MPa in yield strength and 61 and 66 MPa in tensile strength, respect due to precipitation of niobium carbides, while maintaining the same ductility and toughness for C5Nb steel, but there was a decrease of these properties for C6Nb. After rolling with subsequent quenching and tempering at 500 ° C, simulating the same treatment done in the railway wheel, steel C5 showed the same toughness, strength and elongation in comparison with MWL rail wheels steel, but with reduced area and absorbed energy greater than the MWL steel. C5Nb steel showed higher strength, ductility and toughness than MWL steel, which demonstrates its potential to improve the quality of railway wheels currently produced / Doutorado / Materiais e Processos de Fabricação / Doutor em Engenharia Mecânica

Carbonetos

Nióbio

Molibdênio

Aço-carbono

Carbides

Niobium

Molybdenum

Carbon steel

Field-induced optical anisotropy in thin niobium oxide films

Yee, Kai Kwan

January 1974

An automated ellipsometer was used to study field-induced optical anisotropy in anodic niobium oxide films. The oxide films were found to change from the optically isotropic state to the optically anisotropic state when an electric field was applied normal to the film surface. The anisotropic refractive indices of the oxide films decreased quadratically while the thickness of the films increased quadratically with the applied field. The quadratic electro-optic coefficients were determined. The changes in refractive indices and in thickness of the oxide films were found to be independent of time. Field recrystallization of the anodic niobium oxide films was investigated using a scanning electron microscope. The results are compared with those reported for anodic tantalum oxide films in the published literature. / Applied Science, Faculty of / Electrical and Computer Engineering, Department of / Graduate

Thin films - Electric properties

Thin films - Optical properties

Niobium oxide

Biocompatibilidade e osteointegração de células osteoblásticas em contato com nióbio / Biocompatibility and osteointegration of osteoblastic cells in contact with niobium

Paulo Henrique Molin

29 January 2016

O nióbio possui potencial para ser um metal de grande aplicabilidade, tanto na engenharia como na área médica; porém a literatura médica a respeito deste material é escassa. Para que o nióbio de pureza 97,47% possa ser utilizado como material de implante e permita a osteointegração se faz necessário avaliá-lo quanto a sua biocompatibilidade e potencial de mineralização. Para tanto é importante compreender os eventos celulares e moleculares que ocorrem na interface nióbio-célula. Neste estudo foram utilizadas as técnicas laboratoriais de Alamar Blue, coloração de Alizarin Red, assim como a expressão de genes, importantes na ocorrência de mineralização e manutenção das células osteoblásticas, utilizando a técnica de qPCR. As células em contato direto com o nióbio obtiveram atividade celular indiferente em relação ao material controle. O nióbio possibilita a aposição de depósitos de cálcio e a adesão celular em sua superfície, comprovando a osteoindução, osteocondução e osteogênese. A análise do qPCR comprovou estatisticamente pelo método Livak que o nióbio é um material com potencial de osteointegração. O entendimento dos resultados obtidos nos testes de biocompatibilidade, mineralização e expressão gênica comprovaram que o metal nióbio é biocompatível e possui propriedades osteointegrativas, pode ser indicado como um material para implante e que permite a osteointegração. / Niobium has the potential to be a metal with wide applicability in engineering and in the medical field; but the medical literature regarding the behavior of this material is scarce. It is required to evaluate the biocompatibility and mineralization of the niobium (94,47% purity) if it would be used as an implant material and osteointegrate material. Therefore, it is important to understand the cellular and molecular events that occur in the material-cell interface. In this study we used laboratory techniques of Alamar Blue, Alizarin Red staining, as well as gene expression of important genes in the mineralization and maintenance of osteoblastic cells by qPCR technique. The cells in direct contact with the niobium obtained indifferent cellular activity compared to the control material. Niobium allowed affixing calcium deposits and cell adhesion on its surface, proving its osteoinductive, osteoconductive and osteogenesis properties. The qPCR analysis proved statistically by Livak method that niobium is a material with osseointegration potential. An understanding of the biocompatibility, mineralization and gene expression led us to conclusion that the niobium metal is biocompatible and with osteointegrative properties which can be indicated as an implant material that allows osteointegration.

Biocompatibilidade

Material de implante

Nióbio

Osteointegração

Biocompatibility

Implant material

Niobium

Osteointegration

Niobium and tantalum beneficiation using gas-phase fluorination

Pienaar, A.D.

January 2014

The processing of minerals containing tantalum and niobium is a challenge that has most modern researchers focused on optimising the processes that have already reached scientific maturity. Ore digestion in aqueous mixtures of sulfuric and hydrofluoric acid, followed by selective liquid-liquid extraction, is the method of choice for recovery of tantalum and niobium from the parent minerals. As this method has significant environmental and practical drawbacks, there is a need for a new process to beneficiate these minerals. The Advanced Metals Initiative (AMI) programme of the Department of Science and Technology (DST) proposes that no tantalum or niobium values should leave South Africa without some degree of local beneficiation. A significant strategic advantage may be gained from developing a process which is economically viable and more environmentally friendly. This thesis proposes a technology which would circumvent many of the drawbacks of wet chemical systems. The proposed technology would use anhydrous fluorinating gases (HF(g) and F2) to convert the oxidic minerals to oxyfluorides and/or fluorides, followed by thermal separation. Since little is known about the reaction between the fluorinating agents mentioned and the ores containing Ta/Nb, a detailed study of these reactions and possible products for the current concept is realised. Oxyfluorides are the most probable intermediates during the fluorination process. As part of the research, the most likely oxyfluoride intermediates were synthesised. The details of their spectral and crystallographic properties are discussed. Their thermal properties were investigated; this showed that oxyfluorides can be used to develop a thermal separation process in either the high temperature (600-900 ºC) or low temperature region (150-200 ºC). Thermogravimetric analysis also suggests a difference in the decomposition pathways for niobium and tantalum oxyfluorides. Dioxyfluoride is the most stable of the oxyfluorides and is a necessary byproduct, regardless of which other oxyfluoride is synthesised, and may occur even during the synthesis of the pentafluorides. It was therefore considered imperative to understand the decomposition kinetics of the dioxyfluoride compounds, to calculate the decomposition activation energies, and to construct physical decomposition models for these compounds. By means of mechanistic methods, it is shown that the decomposition of the oxyfluorides occurs via Avrami-Erofeev A2 or A3 models and that for this process the activation energy for TaO2F (320 kJ.mol-1) is roughly double that for NbO2F (156 kJ.mol-1). Once the characterisation of the possible reaction intermediates had been completed, the reaction and interaction of F2 and anhydrous HF with pure metal oxides of Ta and Nb were investigated. To this end, both thermogravimetric and differential scanning calorimetry were employed. Thermodynamic calculations indicated that for both these fluorinating agents, the corresponding pentafluorides were the preferred (indeed the only) reaction products, though the experimental results showed that a whole range of oxyfluorides form. The data collected showed no evidence of a two-step mechanism, as has been observed for Nb2O5, for the fluorination of Ta2O5 with elemental fluorine. However, in both cases the rate-limiting step is governed by the contracting volume (R3) mechanistic. The activation energy for the Ta2O5 + F2 reaction is 63-67 kJ.mol-1, and leads to the formation of the pentafluoride without detectable oxyfluoride formation. A single ore containing tantalum and niobium was selected for study and characterised prior to evaluating its reaction with the chosen fluorinating gases. As the reaction products have a substantially more complex matrix, they were shown to be far less self-evident than in the studies conducted on the pure oxides. Nevertheless, it is shown that separation using this methodology is indeed feasible. Aided by techniques such as SEM and ICP-OES, it could be shown that physical and chemical changes occur in the mineral during the fluorination reaction. The concluding chapter considers the information assimilated during this study and provides likely scenarios for a process based on the selective volatilisation of tantalum and niobium fluorides and oxyfluorides. Two likely processes are postulated, the first one involving partial fluorination and sublimation, the second one complete fluorination to the pentafluoride. / Thesis (PhD)--University of Pretoria, 2014. / tm2015 / Chemical Engineering / PhD / Unrestricted

UCTD

Purification

Gas-phase fluorination

Separation

Niobium

Tantalum

Study of the 92Mo (d,a) 90Nb reaction.

Rabin, Eric

January 1971

No description available.

Nuclear spectroscopy

Nuclear reactions

Niobium -- Isotopes

Molybdenum -- Isotopes

Production of ferro-niobium in the Plasmacan furnace

Hilborn, Monica Maria

January 1988

No description available.

Plasma arc melting

Iron -- Electrometallurgy

Niobium alloys

Metallurgical furnaces

Synthesis, consolidation and properties of niobium(5) silicon(3) and laminated niobium(5) silicon(3)/niobium composites

Kajuch, Jan

January 1993

No description available.

Engineering, Materials Science

Niobium, silicon composites

Synthesis and consolidation