Estudo da autoxidação dos complexos de Cu(II), Ni(II) e Co(II)/tetraglicina induzida por S(IV) / Study of the autoxidation of the complexes of Cu (II), Ni (II) and Co (II)/tetraglycine induced by S(IV)

Maria Vespertina Alipazaga Sebastian

19 September 2003

O presente trabalho apresenta estudos espectrofotométricos relacionados à autoxidação dos complexos de Cu(II), Ni(II) e Co(II)/tetraglicina induzida por sulfito. Nossos estudos verificaram que a autoxidação de Cu(II)/tetraglicina (1,0x10-3 mol L-1) em pH = 9,0 (tampão borato) é afetada pela presença de traços de Ni(II) ou Co(II). Na ausência de Ni(II) ou Co(II), a reação é muito ineficiente e lenta com períodos de indução longos (aproximadamente 4 h). Ni(II) ou Co( II) em concentrações baixas ( 10-5 - 10-6 mol L-1) afetam significativamente a cinética: o período de indução diminui drasticamente (a menos de 2 s) e a formação de Cu(III) é fortemente acelerada com simultâneo aumento da eficiência da reação. A atividade catalítica e o sinergismo positivo de Co(II) e Ni(II) podem ser explicados pela oxidação mais rápida de Co(II) ou Ni(II)/tetraglicina pelo oxigênio dissolvido. O processo eletroquímico relacionado aos sistemas Cu(II)/Cu(III)/tetraglicina e Ni(II)/Ni(III)/tetraglicina são reversíveis, possibilitando monitorá-los adequadamente mediante o uso da técnica de eletrodo rotativo disco-anel. Entretanto, o sistema Co(II)/Co(III)/tetraglicina é irreversível. Esses estudos mostraram que as espécies de Cu(III) e Ni(III) geradas no eletrodo disco são instáveis nas condições experimentais empregadas. O efeito sinérgico positivo na presença de Ni(II) (que permitiu aumentar a sensibilidade) foi aproveitado para desenvolvimento de método espectrofotométrico e amperométrico simples e sensível para a determinação indireta de sulfito em meio aquoso. O método espectrofotométrico está baseado na medida de absorbância do complexo de Cu(III)/tetraglicina (gerado na presença de sulfito e traços de Ni(II)) em 365 nm. O método amperométrico em análise por injeção em fluxo baseia-se na medida de corrente (0,1 V vs Ag/AgCl) em função da concentração de Cu(III)/tetraglicina gerado quimicamente, na presença de sulfito e traços de Ni(II). Os métodos desenvolvidos foram empregados para a determinação de S(IV), em vinhos e sucos, após a sua extração da amostra acidificada, os resultados obtidos concordaram com aqueles obtidos pelo método iodométrico. / The present work presents spectrophotometric studies related to the sulfite induced autoxidation of Cu(II), Ni(II) and Co(II)/tetraglycine complexes. The sulfite induced autoxidação of Cu(II)/tetraglycine (1.0x10-3 mol L-1) at pH = 9.0 (borate buffer) is affected by the presence of small quantities of the Ni(II) or Co(II). In the absence of added nickel (II) or cobalt (II), the reaction is very inefficient and slow with one large induction period (about 4 h). Trace amounts of Ni(II) or Co(II) (10-5 - 10-6 M) affect the kinetic significantly: the induction period drastically decreases (less than 2 s) and the formation of Cu(III) is strongly accelerated. The effectiveness of Cu(III) formation becomes much higher. The catalytic activity and the positive synergism of Co(II) and Ni(II) may be explained by the faster oxidation of Co(II) or Ni(II)/tetraglycine complexes by dissolved oxygen. The electrochemistry of Cu(II)/Cu(III)/tetraglycine and Ni(II)/Ni(III)/tetraglycine systems are reversible, such as it was possible to monitor them by using the rotating ring-disk electrode technique. However, the Co(II)/Co(III)/tetraglycine system is irreversible. Those studies showed that the Cu(III) and Ni(III) species generated on the disk electrode are unstable in the employed experimental conditions. The positive sinergistic effect in the presence of Ni(II) (which allowed to increase the sensibility) was taken in advantage for development of one simple and sensitive spectrophotometric and amperometric method for indirect determination of sulfite in aqueous medium. The spectrophotometric method is based on the absorbance measurement of the Cu(III)/tetraglicyne complex (generated in the presence of sulfite and small quantities of Ni(II)) at 365 nm. The amperometric method by flow injection analysis is based on the current measurement (0.1 V vs Ag/AgCl) as function of Cu(III)/tetraglycine concentration chemically generated, in the presence of sulfite and Ni(II). The methods were employed for the determination of S(IV), in wines and juices, after its extraction from acidified samples and the results were in agreement with those obtained by the iodometric procedure.

Amperometria

Autoxidação

Co(II)/tetraglicina

Cu(II)/tetraglicina

Espectrometria

Método eletromagnético

Ni(II)/tetraglicina

Sulfito

Amperometry

Autoxidation

Co (II)/tetraglycine

Cu (II)/tetraglycine

Electromagnetic method

Ni (II)/tetraglycine

Spectrometry

Sulfite

Determinação de Cu e Fe em Biodiesel por Espectrometria de Absorção Atômica com Atomização Eletrotérmica e Estudo do Efeito Catalítico destes Metais sobre a Estabilidade Oxidativa do Biodiesel / Determination of Cu and Fe in Biodiesel by Absorption Spectrometry Electrothermal atomic and Study of the Effect of Catalytic Metals on the Oxidative Stability of Biodiesel

Ghisi, Mirela

16 May 2011

Made available in DSpace on 2016-08-19T12:56:36Z (GMT). No. of bitstreams: 1 MIRELA GHISI.pdf: 1324849 bytes, checksum: 5d9ca5c5a49c366f3bf4959e2e942a14 (MD5) Previous issue date: 2011-05-16 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / The metals content in biodiesel is directly related with the raw material used and also with the utilized biodiesel production method. In this work, an evaluation of the main metals present in biodiesel samples from different sources was done. The qualitative analysis of the metal content was assessed using the Inductively Coupled Plasma Mass Spectrometry technique after sample digestion in microwave oven. The main metals identified in the analyzed biodiesel samples were Al, Cr, Cu, Fe, Mg, Mn, Ni, Pb, Sr and Zn. Metals like Ag, As, Ba, Cd, Co, Tl and V have not significant presence in the samples. Among these, Cu and Fe were selected due to their relevance and importance in oxidative process of biodiesel, to the development of an analytical methodology to be used in the determination by Electrothermal Atomic Absorption Spectrometry, and also evaluate the effect of these metals over the oxidative stability of the soy biodiesel. The samples were prepared with tetramethylammonium hydroxide (TMAH), and the pyrolysis and atomization temperatures were optimized pyrolysis and atomization curves. The high pyrolysis temperature adopted, 1000 oC, certainly minimized potential interferences, but calibration had to be carried out with aqueous standard solutions in the presence of the TMAH. The detection limits in the sample (3s, n=10), were quite low 15 ng g-1 and 24 ng g-1 for Cu and Fe, respectively. Seven biodiesel samples, produced from different raw materials, including vegetable seed, waste frying oil and animal fat were analyzed. Accuracy was validated by applying the recovery test (recoveries from 105% to 120%) and through comparison with the obtained results by High Resolution Continuum Source Electrothermal Atomic Absorption Spectrometry. The precision, expressed by the relative standard deviation, was better than 3% for Cu and than 7% for Fe. Copper could be quantified in two and Fe in three of the seven samples. The biodiesel sample from fodder turnip was especially rich in the analytes in comparison to the other samples. The influence of metals Cu and Fe on soy biodiesel oxidative stability was evaluated by Rancimat method through induction period, according with the Standard EN 14112. The metals Cu2+ and Fe3+ were added to the biodiesel samples in the form of theirs salts, and different storage times of the samples were evaluated. Due to the catalytic behaviour of these metals, the oxidative stability of the samples was affected, even under low metal concentrations. Compared to Cu2+, the effect over the biodiesel stability was higher when Fe3+ was added. / A presença de metais no biodiesel está diretamente relacionada com a matéria-prima utilizada e também com o processo utilizado para a obtenção do biodiesel. Neste trabalho realizou-se uma avaliação dos principais metais presentes em amostras de biodiesel provenientes de diferentes fontes. A análise semi-quantitativa nas amostras de biodiesel foi realizada utilizando a técnica de Espectrometria de Massa com Plasma Indutivamente Acoplado após a digestão das amostras em micro-ondas. Os principais metais identificados nas amostras de biodiesel analisadas são Al, Cr, Cu, Fe, Mg, Mn, Ni, Pb, Sr e Zn. Metais como Ag, As, Ba, Cd, Co, Tl e V não estão presentes em concentrações significativas nessas amostras. Em função de sua relevância e importância em processos oxidativos do biodiesel, selecionou-se Cu e Fe para o desenvolvimento de uma metodologia analítica para a determinação destes por Espectrometria de Absorção Atômica com Atomização Eletrotérmica e também a avaliação do efeito destes metais sobre a estabilidade oxidativa do biodiesel de soja. As amostras foram preparadas com hidróxido de tetrametilamônio (TMAH), e as temperaturas de pirólise e atomização foram otimizadas através de curvas de pirólise e atomização. A alta temperatura de pirólise adotada, 1000 oC, certamente ajudou a minimizar possíveis interferências; porém, a calibração teve de ser realizada com padrões aquosos na presença de TMAH. Os limites de detecção (3s, n = 10), na amostra, foram baixos, 15 ng g-1 e 24 ng g-1 para Cu e Fe, respectivamente. Sete amostras de biodiesel, produzidas de diferentes matérias-primas, incluindo óleos vegetais, óleo de fritura e gordura animal foram analisadas. A exatidão foi avaliada através do teste de recuperação (recuperações de 105% a 120%) e através da comparação com os resultados obtidos por Espectrometria de Absorção Atômica de Alta Resolução com Fonte Contínua e Atomização Eletrotérmica. A precisão, expressa pelo desvio padrão relativo foi melhor que 3% para Cu e que 7% para Fe. Cobre pôde ser quantificado em duas e Fe em três das sete amostras. A amostra de biodiesel proveniente do nabo forrageiro era especialmente rica nos analitos comparada às outras amostras. A influência dos metais Cu e Fe sobre a estabilidade oxidativa do biodiesel de soja foi avaliada pelo método Rancimat através do período de indução, de acordo com a Norma EN 14112. Os metais Cu2+ e Fe3+ foram adicionados nas amostras de biodiesel na forma de seus sais, e foram avaliados diferentes tempos de armazenamento das amostras. Devido ao efeito catalítico destes metais, a estabilidade oxidativa das amostras analisadas foi reduzida mesmo na presença de baixas concentrações dos metais. O efeito do Fe3+ sobre a estabilidade do biodiesel foi significativamente maior quando comparado ao Cu2+.

Biodiesel

Metais

Digestão em micro-ondas

Cu

Fe

ET AAS

Hidróxido de tetrametilamônio (TMAH)

Estabilidade oxidativa

Período de indução

Rancimat

Biodiesel

Metals

Microwave oven digestion

Cu

Fe

ET AAS

Tetramethylammonium hydroxide (TMAH)

Oxidative stability

Induction period

Rancimat

In situ investigation by X-ray radiography of Microstructure Evolution during Solidification of Binary Alloys

Salloum Abou Jaoude, Georges

18 November 2014

La radiographie X synchrotron ou avec une source microfocus a été appliquée pour étudier différents phénomènes dépendants du temps en relation avec la solidification directionnelle d'alliages Al-Cu. Les effets de la gravité ont été étudiés par comparaison d'expériences sur Terre et en microgravité dans le cadre du projet ESA-MAP XRMON. Les mouvements des fragments sont le sujet majeur de notre étude. Sur Terre, le mouvement des fragments est imposé par la poussée d'Archimède, avec une forte influence des effets de paroi et de la morphologie du fragment, alors qu'en microgravité, la force motrice pour le mouvement des fragments est l'écoulement du fluide interdendritique induit par la contraction du solide. L'effet d'un champ magnétique permanent sur la solidification des grains équiaxes dans un gradient de température a été également étudié. Nous avons montré qu'un couplage entre le gradient de température et le champ magnétique donne naissance à une force Thermo-électromagnétique qui agit sur les grains solides. Une bonne description a été obtenue en utilisant un modèle analytique pour une particule sphérique. Enfin, nous avons étudié l'évolution d'une zone pâteuse dans un gradient de température fixe. Trois régimes successifs ont été identifiés, suivant l'intensité de la diffusion du soluté dans la zone pâteuse et dans le bain fondu. L'analyse quantitative des radiographies par traitement d'image a clarifié le rôle de chaque phénomène de diffusion (TGZM, fermeture des canaux, murissement et diffusion du soluté dans le bain fondu). / X-ray radiography with synchrotron and microfocus sources was applied to investigate various time-dependent phenomena related to directional solidification of Al-Cu alloys. Gravity effects were investigated by a comparative study of ground and microgravity experiments in the framework of ESA-MAP XRMON project. Fragment motion was the major subject of our investigation. On Earth, fragmentation motion was imposed by buoyancy, with a strong dependency on wall influence and fragment morphology, whereas in microgravity conditions, the driving force for fragment motion is the interdendritic fluid flow induced by the solid shrinkage. The effect of a permanent magnetic field on the solidification of equiaxed grains in a temperature gradient was also studied. We have shown that a coupling between the temperature gradient and the magnetic field gives birth to a Thermo-Electro-Magnetic force that acts on the solid grains. A good description was obtained by using an analytical model for a spherical particle. Finally we studied the evolution of the mushy zone in a fixed temperature gradient. Three successive regimes were identified, depending on the relative magnitude of solute diffusion in the mushy zone and in the bulk liquid. Quantitative analysis of radiographs by image processing enlightened the role of each diffusion phenomena (TGZM, channel closure, coarsening and solute diffusion in the bulk liquid).

Solidification

Alliages Al-Cu

Radiographie X

Microgravité

Convection

Mouvements de fragments

Champ magnétique

Grains équiaxes

Zone pâteuse

Diffusion de soluté

Solidification

Al-Cu alloys

X-Ray radiography

Microgravity

Convection

Fragment motion

Magnetic field

Equiaxed grains

Mushy zone

Solute diffusion

Caractérisation et modélisation micromécanique de la propagation de fissures fragiles par effet de l'hydrogène dans les alliages AA 7xxx / Characterization and micromechanical modelling of hydrogen induced brittle crack propagation in 7xxx aluminium alloys

Ben Ali, Neji

20 June 2011

Nous étudions la fragilisation par l'hydrogène de l'alliage d'aluminium 7108. Une technique expérimentale spécifique a été développée : Un pré-chargement en hydrogène des échantillons, à travers un dépôt de nickel de quelques dizaines de microns, qui empêche la dissolution du substrat d'aluminium, est utilisé. Il permet la comparaison de la résistance à la fragilisation de différentes microstructures modèles. Nous étudions l'effet du traitement thermique et de la précipitation sur la sensibilité à l'hydrogène pour des vitesses de déformation macroscopiques imposées variables. Différents modes de rupture sont observés ainsi que des transitions entre eux. Au moyen de simulations numériques à l'échelle mésoscopique, l'effet de taille des précipités intergranulaires pré-fragilisés sur la ténacité des joints de grains est estimé, en utilisant un modèle de zone cohésive. Nous analysons la compétition entre la diffusion de l'hydrogène vers la pointe de la fissure et la vitesse de fissuration par un couplage mécanique - diffusion basé sur la diffusion de l'hydrogène assistée par la contrainte hydrostatique. Une vitesse critique au-delà de laquelle l'hydrogène ne peut plus suivre la fissure, est mise en évidence. L'influence de la microstructure du joint de grains sur cette vitesse est analysée. La valeur est comparée à une estimation des vitesses de propagation expérimentales obtenues pour différentes vitesses de déformation macroscopiques. Nous analysons l'effet du piégeage de l'hydrogène par les précipités intergranulaires et la désorption sur la répartition de l'hydrogène le long du joint de grains en imposant un flux au niveau de l'interface précipités - matrice. / We study the hydrogen embrittlement of the 7108 aluminum alloy. A specific experimental technique was developed : A hydrogen pre-charging, through few tens of microns of deposit of nickel, which prevents the dissolution of the aluminum substrate is used. It allows a comparison of the resistance to embrittlement of different model microstructures. We study the effect of heat treatment and intergranular precipitation on the susceptibility to hydrogen embrittlement for several macroscopic strain rates. Different failure modes and transitions between them are observed. Through numerical simulations, at the mesoscopic scale, the effect of the size of pre-weakened intergranular precipitates on the grain boundary toughness is estimated using a cohesive zone model. We further analyze the competition between the hydrogen diffusion toward the crack tip and crack velocity. For this purpose, a mechanical – diffusion coupling based on the hydrogen diffusion assisted by hydrostatic stress is elaborated. A critical crack velocity, beyond which hydrogen can no longer follow the crack, is highlighted. The influence of the grain boundary microstructure on this critical crack velocity is evaluated and its value is compared with an estimate of velocities obtained for different experimental macroscopic strain rates. We analyze the effect of hydrogen trapping by intergranular precipitates and hydrogen desorption by imposing a flux at the precipitates – matrix interfaces.

Alliage Al-Zn-Mg-(Cu)

Rupture

Fragilisation par l'hydrogène

Microstructure

Décohésion

Zone cohésive

Vitesse de fissuration

Diffusion

Al-Zn-Mg-(Cu) alloy

Fracture

Hydrogen embriittlement

Microstructure

Grain boundary cohesion

Cohesive zone

Crack velocity

Diffusion

Texture et Anisotropie du comportement mécanique après laminage à chaud d'un alliage léger Aluminium Cuivre Lithium (2050) pour l'aéronautique / Hot rolling texture and anisotropy of mechanical behaviour of a light al-cu-li alloy for aeronautic

Contrepois, Quentin

12 January 2010

Ce travail vise à comprendre l’évolution de la texture cristallographique et l’anisotropie du comportement mécanique après laminage à chaud et traitements thermiques d’un Al-Cu-Li 2050 et d’un Al-Zn-Mg-Cu 7050, et expliquer leurs différences. La texture est analysée par EBSD et RX après des essais de compression plane à chaud et après des laminages à chaud industriels. L’anisotropie est étudiée sur des tôles fortes industrielles après différents détensionnements et dans différents états microstructuraux par des essais de traction à 0°, 45° et 90° par rapport à DL. Enfin, nous comparons nos mesures à des résultats simulés par des modèles de plasticité cristalline (modèles de Taylor). Il est montré que, déformés dans des conditions identiques, les deux alliages développent les mêmes textures de laminage jusqu'à une déformation de 2.6. La présence de 1% massique de Li n’est à priori pas responsable d’une texture particulière. En revanche la température de laminage, qui est généralement plus élevée pour les Al-Cu-Li que pour les Al-Zn-Mg-Cu, a un impact important aux grandes déformations, notamment en favorisant la composante Laiton {110}<112>. L'anisotropie d'une tôle laminée de 2050 est pour une large part due à la texture cristallographique. Elle augmente quand un détensionnement est effectué par traction dans la direction DL et diminue quand il est effectué à 45°/DL. La précipitation durcissante, composée de T1 Al2CuLi en forme de plaquettes sur les plans {111}Al, augmente la résistance de la direction préalablement tractionnée mais n'est pas responsable dans nos conditions expérimentales d'une forte aggravation de l'anisotropie. Dans le 7050, l'anisotropie diminue entre l’état mûri naturellement et l’état sur-revenu. La précipitation de sur-revenu du 7050 atténue l'effet de la texture cristallographique sur l'anisotropie et rend, en comparaison, le 2050 d’autant plus anisotrope. / This work aims to understand hot rolling texture evolution and anisotropy of mechanical behaviour on an Al-Cu-Li 2050 and an Al-Zn-Mg-Cu 7050, and aims to explain their differences. Crystallographic textures are analysed by EBSD and X-ray after hot plane strain compressions and after industrial hot rolling. Anisotropy of industrial hot rolled plates is investigated after different stretching and different ageing treatments by means of tensile tests at 0°, 45° and 90° to RD. Experimental results are compared to predictions using plasticity models (Taylor models). It is shown that, under the same processing conditions, the two alloys develop the same rolling textures up to strain of 2.6 ; it can be concluded that the presence of 1wt% of Li does not by itself favour a particular texture. However, it is shown that Brass component {110}<112> is favoured by an increasing rolling temperature, which is generally higher in the Al-Cu-Li than in the Al-Zn-Mg-Cu. Anisotropy of hot rolled 2050 is for a large part caused by crystallographic texture. It increases when stretch axis is at 0° and decreases when stretch axis is at 45°. Hardening precipitation, made by plate shape T1 Al2CuLi lying on the {111}Al, increases yield strength in the stretched direction but it is not responsible in our experimental conditions for a high increase of anisotropy. Anisotropy of 7050 is less important in the over aged state than in the natural aged state. Over ageing precipitation of 7050 reduces the effect of crystallographic texture on the anisotropy and makes 2050 appearing much more anisotropic.

Aluminium

Anisotropie

Texture de laminage

Al-Cu-Li

2050

7050

Précipitation

Détensionnement

EBSD

Facteur de Taylor

Électrons rétrodiffusés

Contraste de phase

Aluminium

Al-Cu-Li

Anisotropy

Hot rolling texture

2050

7050

Precipitation

T1

Stertching

EBSD

Taylor factor

Back scattered electrons

Estudos petrográficos e geocronológicos do prospecto Mankombiti, Cinturão de Fíngoè, Província de Tete, noroeste de Moçambique / not available

Laura Nilza Mendes Mahanjane

27 November 2013

O cinturão Fíngoè é uma unidade tectônica do Supercontinente Gondwana Oeste composta por rochas supracrustais formadas há aproximadamente 1.33 Ga. Essas rochas são portadoras de mineralizações de Au, Cu, Zn, Pb e Fe. Com cerca de 150 km de comprimento, e orientado WSW-ENE, este cinturão estende-se desde o Monte Atchiza a oeste até cerca de 30 km para leste da vila de Fíngoè no norte de Moçambique e consiste de uma extensa variedade de rochas metassedimentares e metavulcânicas. O cinturão Fíngoè apresenta especialização metalogenética para Au e Cu, que já foram explotados no passado em diversos locais. Muitos destes registros estão associados com magnetita e malaquita. Atualmente trabalhos de prospecção e pesquisa mineral têm sido realizados pela empresa de mineração African Queen Mines Ltda, através do projeto denominado de King Solomons, localizado na parte central do mesmo. A geologia da área abrangida pelo prospecto Mankombiti, mostra uma predominância de rochas carbonáticas, granitos e gabros. As rochas carbonáticas são consideradas importantes na gênese de depósitos tipo skarn e depósitos de substituição de metais de base e Au devido à sua natureza fortemente reativa. Os dados geocronológicos realizados neste trabalho indicaram uma idade precisa para a rocha intrusiva granítica associada à mineralização de 1079,1 ± 8,2 Ma, que poderia ser a idade da formação do skarn e consequentemente desta mineralização. Entretanto a idade obtida para o processo de alteração hidrotermal que afetou o gabro, na ordem de 657 ± 36 Ma e a idade modelo Pb-Pb sugerida pelo modelo de Stacey e Kramers (1975) para a calcopirita da mineralização principal de 725 Ma, sugerem que a mineralização, do prospecto Mankombiti é neoproterozóica. Para melhor entendimento dos processos que estiveram envolvidos na formação deste depósito skarn, duas hipóteses são consideradas: (i) poderia ser admitida a presença de corpos graníticos intrusivos em 700 Ma, situados em profundidade, que não foram ainda caracterizados, como responsáveis pela fonte de calor necessária, (ii) pode ser admitida ocorrência de um evento distensional em 700 Ma que produziria um adelgaçamento da litosfera e a consequente ascensão da astenosfera, produzindo uma elevação do fluxo térmico gerando os fluidos mineralizantes necessários. / The Fíngoè belt is a tectonic unit of West Gondwana Supercontinent, comprised of supracrustal rocks formed at approximately 1.33 Ga. These rocks are carriers of Au, Cu, Zn, Pb and Fe mineralization. With about 150 km long and oriented WSW- ENE, this belt extends from west of the Atchiza Mount to about 30 km east of the Fíngoè village in the north Mozambique, and consists of an extensive variety of metasedimentary and metavolcanic rocks. The Fíngoè metallogenic belt provides specialization for Au and Cu, which have been exploited in the past in various locations. Many of these records are associated with magnetite and malachite. Currently, the prospecting and mineral exploration have been conducted by the African Queen Mines Ltd mining company, through a project called the King Solomons, located in the central part of it. The geology of the studied area shows a predominance of carbonate rocks, granites and gabbros. The carbonate rocks are considered important in the genesis of the skarn deposits type and deposits of replacement for base metals and Au due to its highly reactive nature. The geochronological data performed in this work indicate a precise age of the 1079.1 ± 8.2 Ma for the intrusive granitic rock associated with mineralization, which could be interpreted as the age of the skarn and consequently of the mineralization. However the age obtained for the hydrothermal alteration that affected the gabbro at about 657 ± 36 Ma and the Pb-Pb model age suggested by the model of Stacey and Kramers (1975) for primary chalcopyrite mineralization at 725 Ma, suggesting that the mineralization of the Mankombiti prospectus was developed during the Neoproterozoic time. For understanding the processes that were involved in the skarn-type mineralization processes, two hypotheses are here considered: (i) could be admitted the presence of i ntrusive granitic rocks at 700 Ma, situated in depth, which have not yet been characterized, as responsible for the heat source required, (ii) may be admitted occurrence of an extensional event at 700 Ma to produce a thinning of the lithosphere and the uplift of the asthenosphere, producing high thermal flows generating the mineralization fluids.

Cinturão Fingoè

Composição isotópica

Cu

Geocronologia

Mineralizações de Au

Nd

Pb

Pb e Fe

Prospecto Mankombiti

Sr

Zn

Cu

Fingoè belt

Geocronology

isotopic composition of the Sr

Mankombiti prospectus

Mineralization of the Au

Pb and Fe

Pb and Nd

Zn

The Älgliden Ni-Cu-Au sulfide deposit, Skellefte Belt, Sweden : a magmatic Ni-Cu deposit in a subduction setting / Le gisement de sulfures à Ni-Cu-Au d'Älgliden, ceinture de Skellefte, en Suède : un gisement magmatique de Ni-Cu en zone de subduction

Coin, Kévin

08 November 2017

La plupart des gisements de Ni-Cu sont issus de magmas komatiitique ou tholéiitique associés à des panaches mantelliques. Leur genèse fait intervenir l’exsolution d’un liquide sulfuré immiscible, l’interaction entre les liquides silicaté et sulfuré afin de concentrer ce-dernier en éléments chalcophiles, et l’accumulation du liquide sulfuré en quantités économiques. La saturation en sulfure est généralement atteinte en réduisant la solubilité des sulfures. Celle-ci se fait par assimilation de roches encaissantes siliceuses et/ou sulfurés.Le dyke d’Älgliden de la ceinture de Skellefte, en Suède, contient des sulfures de Cu et Ni dont les quantités ne sont actuellement pas économiques. La minéralisation d’Älgliden est atypique dans la mesure où elle contient d’importantes teneurs en Au, elle a un faible rapport Ni/Cu et enfin est formé dans un contexte de subduction. Le dyke recoupe un gisement porphyrique à Cu-Au contenant des sulfures ce qui laisse suggérer que la minéralisation d’Älgliden est formée par assimilation.Les objectifs de ce projet de recherche étaient d’examiner les processus de formation de la minéralisation d’Älgliden et son potentiel minier ainsi que de mieux comprendre la formation des gisements à Ni-Cu en contexte de subduction. Ce travail inclut l’étude pétrologique du minerai et de ses roches hôtes, la détermination de compositions minérales, l’analyse des éléments majeurs et traces sur roche totale et enfin des analyses des isotopes du soufre. Ce projet a été financé par la compagnie Boliden qui détient le gisement d’Älgliden.Le dyke est composé en majeure partie de norite à olivines, et minoritairement de leucogabbros. Les compositions sur roches totales, les textures magmatiques et les compositions minérales suggèrent que les norites à olivine se sont formées par accumulation d’olivine tandis que les leucogabbros représentent des liquides résiduels avec ou sans cristaux cumulus de plagioclase ± orthopyroxene. Les norites sont interprétées comme étant formées par une ou deux injections de bouillie cristalline suivie de cristallisation fractionnée. Le magma parent des roches d’Älgliden était un basalte hydraté et évolué dont la teneur en MgO est estimé à 6%.Le minerai sulfuré est principalement disséminé à travers l’ensemble de l’intrusion d’Älgliden. Quelques concentrations modérées de minerai se présentent sous la forme de sulfures en réseaux, de veines de sulfures et de sulfures massifs, lesquelles sont spatialement associées aux leucogabbros et aux xénolites de l’encaissant. L’association entre les leucogabbros et les concentrations en sulfures, leur faible teneur en métaux et leur faible rapport Ni/Cu suggèrent que la phase sulfuré s’est exsolvée tardivement au cours de la différentiation magmatique. Ce timing semble défavorable pour la minéralisation d’Älgliden puisqu’il inhibe à la fois l’interaction entre les liquides silicaté et sulfuré et l’accumulation du liquide sulfuré.La contamination du magma d’Älgliden par son encaissant n’est pas corroboré par les concentrations en élément trace et les compositions isotopiques du soufre. En revanche, ces données indiquent que le magma d’Älgliden s’est mis en place dans une zone de subduction où l’on pense que la saturation en sulfure a été atteinte par réduction d’un magma oxydé et riche en élément volatiles, via la cristallisation de magnétite et/ou dégazage. Les valeurs positives de δ34S suggèrent que l’apport de matériel dérivé du slab est responsable du caractère oxydé du magma d’Älgliden.L’état d’oxydation des magmas d’arc leur permet de dissoudre de grandes quantités de S et d’Au. Leur caractère évolué est responsable de leur fortes concentrations relatives en Au et leur faible rapport Ni/Cu. Ainsi, en contexte subduction les sulfures magmatiques sont susceptibles d’avoir ces caractéristiques, et si l’exsolution du liquide sulfuré a lieu plus tôt que dans le cas d’Älgliden cela pourrait conduire à la formation de gisements économiques. / Most major sulfide Ni-Cu deposits originated from komatiitic or tholeiitic magmas that formed in association with mantle plumes. Their genesis involves the segregation of a immiscible sulfide liquid, reaction of the sulfide liquid with silicate melt to upgrade the sulfide in chalcophile elements, and the concentration of the sulfide liquid in economic amounts. Saturation in sulfide is commonly achieved by lowering the sulfide solubility via assimilation of siliceous wall rock or by increasing the S content by adding S-bearing materials.The Älgliden dike in the Skellefte Belt in Sweden contains currently uneconomic Ni-Cu sulfide mineralization. The Älgliden mineralization is atypical insofar as it contains a significant amount of Au, has a low Ni/Cu ratio and formed in a subduction-related geodynamic setting. The host intrusion intrudes sulfide-bearing Cu-Au porphyry mineralization which led to the suggestion that the Älgliden Ni-Cu-Au mineralization was linked to the assimilation of sulfide-bearing wall rocks.The goals of this research project were to investigate the ore forming processes of the Älgliden mineralization and its ore potential, as well as to improve our understanding of the genesis of Ni-Cu deposits in subduction zones. The work is based on a petrological study of the ore and its host rocks, determination of mineral compositions, analyses of major and trace elements in bulk rocks, and sulfur isotope analyses. This was supported by the Boliden company which owns the deposit.The dike is composed mainly of olivine norites with minor leucogabbros. Bulk rock compositions, magmatic textures and mineral compositions suggest that the olivine norites formed by accumulation of olivine and that the leucogabbros represent residual melts with or without cumulus plagioclase ± orthopyroxene. The norites are interpreted to form by one or two injections of an olivine-rich crystal mush and subsequent fractional crystallization. The parental melt of the Älgliden rocks was a hydrous and evolved basalt estimated to contain ≈6 wt.% MgO.The sulfide ore is mainly disseminated throughout the whole Älgliden intrusion. Some weak ore concentrations occur as network to vein and massive sulfides that are spatially associated with the leucogabbros and wallrock xenoliths. The association between the leucogabbros and the concentrations of sulfide, their low ore grade and Ni/Cu ratio suggest that the sulfide segregated late in the differentiation process. This timing appears unfavorable for the Älgliden mineralization because it inhibited both sulfide-silicate liquid interaction and the accumulation of sulfide.Contamination of the Älgliden magma by its wall rocks is not supported by trace element data and S isotope compositions. Instead these data indicate that the Älgliden magma was emplaced above a subduction zone where the sulfide saturation is thought to occur by reduction of the oxidized and volatile-rich magma by magnetite fractionation and/or by degassing. Positive δ34S values suggest addition of slab-derived material which is thought to be responsible for the oxidized character of the Älgliden magma.The oxidation state of arc magmas allows them to carry large amounts of S and Au. Their evolved character is also responsible for their relatively high Au contents and low Ni/Cu. Such characteristics are likely to occur in magmatic sulfide mineralization in subduction zone settings, and if sulfide liquid segregation had occurred earlier than at Älgliden the process may have produced economic sulfide deposits.

Dike d'Älgliden

Minéralisation à Ni. Cu et Au

District de Skellefte

Zone de subduction

Magmas mafiques oxidés

Älgliden dike

Ni-Cu-Au mineralization

Skellefte district

Subduction zone

Oxidized mafic magmas

Reduction-Induced sulfide saturation

550

Les séquences mafiques-ultramafiques de Samapleu et leur minéralisation en Ni-Cu-EGP : un dyke éburnéen (2,09 Ga) du complexe lité Yacouba (domaine archéen de Man - Côte d'Ivoire) / The sampapleu mafic-ultramafic sequences and its Ni-Cu-PGE mineralizations : an eburnean (2.09Ga) dyke to the yacouba layered complex (man archean field western ivory coast)

Gouedji, Gnamba Emmanuel

27 November 2014

Le complexe mafique–ultramafique lité Yacouba est intrusif au sein des granulites gneissiques du domaine archéen de Man (3,6-2,78 Ga) dans la région de Biankouma-Sipilou (ouest de la Côte d'Ivoire). Dans le secteur de Samapleu, il est composé de trois entités ; dépôt principal de Samapleu (SM), l’Extension 1 de Samapleu (E1) et l’occurrence de Yorodougou (Yo). Il comprend des horizons de webstérites, péridotites, chromitites, norites, gabbro-norites. Ces horizons (épaisseur cumulée de 80 à 200 m) sont inclinés de 70 à 80° vers le SE ; présentent une zonation concentrique, qui sont autant de caractéristiques d’un dyke ; un enracinement à plus de 600 m à partir de la surface avec une jonction des intrusions (SM, E1) plus en profondeur. Les contacts avec l’encaissant gneissique (localement site E1) sont marqués par une zone hybride (condition P = 7,5±1Kbar et T = 850°C ± 100°C) interprétées comme le résultat d'un métamorphisme de contact lors de la mise en place de l’intrusion en base de croûte à environ 22 km de profondeur. Les gneiss et granulites du socle, tout comme les faciès de la zone hybride, préservent des âges archéens (~2,78 Ga, U-Pb sur zircon). Des cristaux de rutile observés dans la zone hybride révèlent un âge U-Pb de 2,09 Ga interprété comme l'âge du métamorphisme de contact et donc de la mise en place de l'intrusion.La minéralisation en Ni-Cu (essentiellement disséminée avec des veines sulfurées subverticales semi-massives à massives) est composée de pentlandite, chalcopyrite, pyrrhotite, rarement pyrite. La texture des sulfures varie de matricielle, en filets, en gouttelettes, ou brèchique. Les réserves estimées des dépôts de Samapleu (SM et E1) font plus de 40 millions de tonnes à une teneur moyenne de 0,25% Ni et 0,22% Cu dans la partie supérieure des intrusions (Sama Nickel-CI, Août 2013). Des MGP riches en palladium (Pd) sont associés aux sulfures et plusieurs bandelettes de chromite sont également présentes. Ces observations suggèrent un liquide sulfuré immiscible formé à partir du liquide silicaté initial consécutivement à la saturation en soufre du système. Ces sulfures d’origine essentiellement mantellique ont été probablement formés par injection de plusieurs magmas. Cependant une partie de ces sulfures aurait pu se former par l’assimilation des roches granulitiques encaissantes.La composition du liquide parent révèle une composition de basalte à forte teneur en MgO et faible teneur en Ti et suggère que les intrusions de Samapleu se sont formées par fusion du manteau supérieur sous l’influence d'un panache mantellique. Ainsi, lors de leurs remontées, le magma a assimilé les roches granulites encaissantes environnantes. / The Yacouba layered complex intrudes the archean (3.6-2.78 Ga) Man field in the Biankouma-Sipilou area, western Ivory Coast. In Samapleu area, the complex is composed of three entities; Samapleu Main (SM); Samapleu Extension 1 (E1) and Yorodougou (Yo). It includes websterites, peridotites, chromitites, norites, gabbro-norites horizons. These horizons (total thickness of 80 to 200 m) inclined at 70-80° to the SE; arranged symmetrically with mafic layers at the center and ultramafic layers at both margins, are features of a dyke ; show a root more than 600 m from the surface with a junction intrusion (SM, E1) in more depth.At the E1 site, contacts of intrusions with the country rock gneiss are characterized by a hybrid zone (condition P = 7.5±1Kbar and T = 850°C ± 100°C) attributed to contact metamorphism during intrusion of the complex in the lower crust at a depth of about 22 km. Zircons in country rock gneisses and granulites, as well as in the hybrid facies, yield archean ages of ~ 2.78 Ga. Rutiles in the hybrid zone give a U-Pb age of 2.09 Ga, which is interpreted as the age of contact metamorphism and emplacement of the intrusion.The Ni-Cu mineralization (disseminated mainly with subvertical and semi-massive to massive sulfide veins) is composed of pentlandite, chalcopyrite, pyrrhotite and rare pyrite. The SM and E1 sites contain Ni and Cu sulfide deposit with reserves estimated as more than 40 million tons grading 0.25% Ni and 0.22% Cu in the upper portion (Sama Nickel-CI, August 2013). The sulfide textures range from matrix ore, net-textured, droplets or breccia textures. Zones enriched in PGM, particularly Pd, are associated with the sulfides and several chromite bands are also present. These observations suggest that an immiscible sulfide liquid formed from a parental silicate liquid and percolated through the crystal pile. These sulfides mainly mantle origin were probably formed by injecting several magmas. However few of these sulfides may have formed by the assimilation of country rocks.The parental melt composition has a basalt rich MgO and low Ti and suggest Samapleu intrusions were formed by melting of the upper mantle under the influence of a mantle plume. Thus, during its ascent, magma has assimilated the granulites country rocks.

Man

Archéen

Paléoprotérozoîque

Côte-d'Ivoire

Complexe lité Yacouba

Intrusions de Samapleu

Sulfures Ni-Cu et MGP

Man

Archeen

Paleoprotrerozoîc

Ivory coast

Yacouba Layered Complex

Samapleu intrusion’s

PGM and Ni-Cu sulfides

560

Mechanisch legierte hochfeste nanokristalline Cu-Nb-Leitermaterialien

Bocharova, Ekaterina

18 July 2005

Hochfeste Leitermaterialien werden für gepulste Hochfeld-Magnetspulen benötigt, um damit die sehr hohen Magnetfelder mit einer magnetischen Flussdichte von bis zu 100 T zerstörungsfrei erzeugen zu können. Cu-Nb-Legierungen besitzen ein hohes Potential, um die widersprüchlichen Anforderungen an das Leitermaterial, wie hohe Festigkeit, hohe Leitfähigkeit und gute Verformbarkeit, zu erfüllen. Die Herstellung von Cu-Nb-Legierungen ist jedoch auf dem konventionellen Weg der Schmelzmetallurgie aufgrund der vernachlässigbar kleinen gegenseitigen Randlöslichkeit der beiden Komponenten sehr kompliziert. Die hier vorliegende Arbeit befasst sich mit Untersuchengen zur Technologie für die Herstellung von hochfesten Cu-Nb-Leitermaterialien auf der Basis der Pulvermetallurgie. Gleichermaßen ist die Entwicklung der Legierung Kerninhalt der vorliegenden Arbeit. Hierfür wurden während der einzelnen Prozessschritte sowohl die Entwicklung des Gefüges als auch die für die Anwendung relevanten Eigenschaften der Legierung untersucht und die Beziehungen zwischen Gefüge und mechanischen wie auch elektrischen Eigenschaften ermittelt.

info:eu-repo/classification/ddc/620

ddc:620

Degradation of Flexible Cu(In,Ga)Se2 Solar Cells

Daume, Felix

09 October 2015

Untersuchungsgegenstand dieser Arbeit ist die Degradation flexibler Dünnschichtsolarzellen auf Basis von Cu(In,Ga)Se2 Absorbern. Zur beschleunigten Alterung unter Laborbedingungen wurden unverkapselte Solarzellen in Klimaschränken Wärme und Feuchte ausgesetzt. Die Auswirkungen von Wärme und Feuchte auf die Solarzellen wurden zunächst durch Messung von Strom–Spannungs–Kennlinien (IV) und Kapazitäts–Spannungs–Charakteristiken (CV) erschlossen. Mittels in–situ Messungen der IV–Kennlinien der Solarzellen unter Wärme und Feuchte konnte die Degradationskinetik untersucht werden. Es gelang zwei Phasen der Alterung, eine anfängliche Verbesserung und die eigentliche Degradation, zu unterscheiden. Außerdem war es dadurch möglich Degradationsraten zu bestimmen. Die Untersuchung der Stabilität der Flächenkontakte erfolgte im Schichtverbund der Solarzelle und separat. Dann wurde der Einfluss von Natrium, einem Bestandteil der Cu(In,Ga)Se2 Solarzellen, untersucht. Schichtzusammensetzung, Elementprofile und Oberflächenbeschaffenheit wurden mittels Laser–induzierter Plasmaspektroskopie (LIBS), Sekundärionen–Massenspektrometrie (SIMS), Rasterelektronenmikroskopie (SEM) und 3D–Lasermikroskopie gemessen. Die Rolle von Natrium für den Degradationsprozess konnte für zwei unterschiedliche Methoden der Natriumeinbringung in den Absorber (Ko–Verdampfung, Nachbehandlung) beschrieben werden. Schließlich wurde mittels Elektrolumineszenz (EL), Thermographie (DLIT) und der Messung Lichtstrahl–induzierter Ströme (LBIC) die Degradation ortsaufgelöst untersucht und Inhomogenitäten detektiert. Aus spannungsabhängigen Elektrolumineszenzaufnahmen gelang es Serienwiderstandskarten zu errechnen. Die Kombination der genannten Messmethoden erlaubte eine Identifizierung dominanter Degradationsprozesse in den flexiblen Cu(In,Ga)Se2 Solarzellen unter Wärme und Feuchte. Unter anderen wurde die Degradation der Grenzfläche zwischen Absorber und Rückkontakt diskutiert. Die Degradationskinetik konnte beschrieben, Solarzelllebensdauern abgeschätzt, die für die Wärme–Feuchte–Stabilität nachteilige Wirkung von Natrium identifiziert und laterale Inhomogenitäten des Degradationsprozesses aufgezeigt werden. Aus der Diskussion der Ergebnisse wurden Vorschläge zur Verbesserung der Wärme–Feuchte–Stabilität abgeleitet.

info:eu-repo/classification/ddc/530

ddc:530