Corrosion behaviour of fly ash-reinforced aluminum-magnesium alloy A535 composites

Obi, Emenike Raymond

30 September 2008

The corrosion behaviour of cast Al-Mg alloy A535 and its composites containing 10 wt.% and 15 wt.% fly ash, and 10 wt.% hybrid reinforcement (5 wt.% fly ash + 5 wt.% SiC) was investigated using weight-loss and electrochemical corrosion tests, optical microscopy, Scanning Electron Microscopy (SEM) and Energy Dispersive X-ray Spectroscopy (EDS). The tests were conducted in fresh water collected from the South Saskatchewan River and 3.5 wt.% NaCl solution at room temperature. The pH of the salt solution varied from 3 to 9. For comparison, two other aluminum alloys, AA2618 and AA5083-H116, were tested in the same electrolytes. The results of the weight-loss corrosion test showed that unreinforced A535 alloy had a lower corrosion rate in fresh water and seawater environments than the composites at all the tested pH values. The corrosion rate of the composites increased with increasing fly ash content. As expected, the corrosion rates of A535 alloy and the composites tested in fresh water were lower than those in salt solution. The results of the potentiodynamic and cyclic polarization electrochemical tests showed that the corrosion potential (Ecorr) and pitting potential (Epit) of the alloy were more positive than those of the composites. The corrosion and pitting potentials of the composites became more negative (active) with increasing fly ash content. The composites showed more positive (noble) repassivation or protection potential (Erp) than the matrix alloy, with the positivity increasing with fly ash content. Analysis of the electrochemical noise data showed that pitting corrosion was the dominant mode of corrosion for the alloy in 3.5 wt.% NaCl solution. Optical microscopy and SEM revealed that Mg2Si phase and Al-Mg intermetallics corroded preferentially to the matrix. The EDS data indicated that the protective oxide film formed on A535 contained Al2O3 and MgO.

Al-Mg alloy

A535

Fly ash

Repassivation potential

Pitting potential

Weight-loss

Corrosion rate

Corrosion potential

MMCs

Composites

Intermetallic compounds

Dimagnesium silicide

Immersion test

Electrochemical noise measurement

Cylic polarization measurement

Potentiodynamic measurement

Optical microscopy

Silicon carbide

Excitation, Interaction, and Scattering of Localized and Propagating Surface Polaritons / Anregung, Wechselwirkung und Streuung lokalisierter und propagierender Oberflächen-Polaritonen

Renger, Jan

21 July 2006

Surface polaritons, i.e., collective oscillations of the surface charges, strongly influence the optical response at the micro- and nanoscale and have to be accounted for in modern nanotechnology. Within this thesis, certain basic phenomena involving surface polaritons are investigated by means of the semianalytical multiple-multipole (MMP) method. The results are compared to experiments. In the first part, the surface plasmon resonance (SPR) of metal nanoparticles is analyzed. This resonant collective oscillation of the free electrons in a metallic nanoparticle leads to an enhancement and confinement of the local electric field at optical frequencies. The local electric field can be further increased by tailoring the shape of the particle or by using near-field-interacting dimers or trimers of gold nanospheres. The hot spots found under such conditions increase the sensitivity of surface-enhanced Raman scattering by several orders of magnitude and simultaneously reduce the probed volume, thereby providing single-molecule sensitivity. The sub-wavelength-confined strong electromagnetic field associated with a SPR provides the basis for scattering-type near-field optical microscopy or tip-enhanced Raman spectroscopy, where the metal particle serves as a probe that is scanned laterally in the vicinity of a substrate. The presence of the latter causes a characteristic shift of the SPR towards lower frequencies. This effect originates in the near-field interaction of the surface charges on the objects. Furthermore, the excitation of higher-order modes becomes possible in case of an excitation by a strongly inhomogeneous wave, such as an evanescent wave. These modes may significantly contribute to the near field but have only very little influence on the far-field signature. Instead of using resonant probes, one may place a nonresonant probe in the vicinity of a substrate having a high density of electromagnetic surface states. This also produces a resonance of the light scattering by the system. Especially polar crystals, such as the investigated silicon carbide, feature such a high density of surface phonon polariton states in the mid-infrared spectral region, which can be excited due to the near-field interaction with a polarized particle. Thereby, a resonance is created leading to a strong increase of the electric field at the interface. In the second part of the thesis, special emphasis is put on surface plasmon polaritons (SPPs). Such propagating surface waves can be excited directly by plane waves only at patterned interfaces. This process is studied for the case of a groove. The groove breaks the translational invariance, so that the SPPs can be launched locally at the edges of the groove. Additionally, the mode(s) inside the groove are excited. These modes can basically be understood as metal-insulator-metal cavity modes. Their dispersion strongly depends on the groove width. The cavity behavior caused by the finite depth provides another degree of freedom for optimizing the SPP excitation by plane waves. Thin metallic films deposited on glass offer two different SPP waveguide modes, each of which can be addressed preferentially by a proper choice of the width of the groove. The reflection, transmission, scattering, and the conversion of the modes at discontinuities such as edges, steps, barriers, and grooves can be controlled by appropriately designing the geometry at the nanoscale. Furthermore, the excitation of SPPs at single and multiple slits in thin-film metal waveguides on glass and their propagation and scattering is shown by scanning near-field optical experiments. Such waveguide structures offer a means for transporting light in a confined way. Especially triangularly shaped waveguides can be used to guide light in sub-wavelength spaces. / Die Wechselwirkung von elektromagnetischer Strahlung mit subwellenlängenkleinen Teilchen bzw. Oberflächenstrukturen ermöglicht nicht nur eine Miniaturisierung optischer Geräte, sondern erlaubt sehr interessante Anwendungen, beispielsweise in der Sensorik und Nahfeldoptik. In der vorliegenden Arbeit werden die zu Grunde liegenden Effekte im Rahmen der klassischen Elektrodynamik mit Hilfe der semianalytischen Methode der multiplen Multipole (MMP) analysiert, und die Ergebnisse werden mit Experimenten verglichen. Im ersten Teil werden Oberflächenplasmonenresonanzen (engl. surface plasmon resonance - SPR) einzelner und wechselwirkender Metallteilchen untersucht. Die dabei auftretende resonante kollektive Schwingung der freien Elektronen des Partikels bewirkt eine deutliche Erhöhung und Lokalisierung des elektromagnetischen Feldes in seiner Umgebung. Die spektrale Position und die Stärke der SPR eines Nanoteilchens, die von dessen geometrischer Form, Permittivität und Umgebung abhängen, können nur im Grenzfall sehr kleiner Teilchen elektrostatisch beschrieben werden, wohingegen der verwendete semianalytische MMP-Ansatz weitaus flexibler ist und insbesondere auch auf größere Partikel, Teilchen mit komplizierterer Form bzw. Ensembles von Partikeln anwendbar ist. Die betrachteten einzelnen kleinen (< Wellenlänge) Goldkügelchen und Silberellipsoide besitzen eine stark ausgeprägte SPR im sichtbaren optischen Bereich. Diese ist auf eine dipolartige Polarisierung des Teilchens zurückzuführen. Höhere Moden der Polarisation können entweder als Folge von Retardierungseffekten an größeren (mit der Wellenlänge vergleichbaren) Teilchen oder bei der Verwendung inhomogener (z.B. evaneszenter) Wellen angeregt werden. Partikel, die sich in der Nähe eines Substrates befinden, unterliegen der Nahfeldwechselwirkung zwischen den (lichtinduzierten) Oberflächenladungen auf der Oberfläche des Teilchens und des Substrats. Dies führt zu einer Verschiebung der SPR zu niedrigeren Frequenzen und einer Erhöhung des lokalen elektrischen Feldes. Letzteres bildet die Grundlage z.B. der spitzenverstärkten Raman-Spektroskopie und der optischen Nahfeldmikroskopie mit Streulichtdetektion. Dasselbe Prinzip bewirkt ein stark überhöhtes elektrisches Feld zwischen miteinander wechselwirkenden Nanopartikeln, welches z.B. die Sensitivität der oberflächenverstärkten Raman-Mikroskopie um mehrere Größenordnungen steigern kann. Im Gegensatz zur SPR einzelner Nanopartikel kann die Resonanz der Lichtstreuung im Fall eines Partikels in der Nähe eines Substrats aus der durch die Nahfeldwechselwirkung induzierten Anregung elektromagnetischer Oberflächenzustände entstehen. Diese wirken ihrerseits auf das Nanopartikel zurück, wobei eine resonante Lichtstreuung beobachtbar ist. Dieser, am Beispiel einer metallischen Nahfeldsonde über einem Siliziumcarbid-Substrat analysierte, Effekt ermöglicht bei einer ganzen Klasse von polaren Kristallen interessante Anwendungen in der Mikroskopie und Sensorik basierend auf der hohen Dichte von Oberflächenphononpolaritonen dieser Kristalle im mittleren infraroten Spektralbereich und deren nahfeldinduzierten Anregung. Im zweiten Teil der Arbeit werden kollektive Anregungen von Elektronen an Metalloberflächen untersucht. Die dabei auftretenden plasmonischen Oberflächenwellen (engl. surface plasmon polaritons - SPPs) weisen einen exponentiellen Abfall der Intensität senkrecht zur Grenzfläche auf. Diese starke Lokalisierung der Energie an der Oberfläche bildet die Grundlage vieler Anwendungen, z.B. im Bereich der hochempfindlichen Detektion (bio)chemischer Verbindungen oder für eine zweidimensionale Optik (engl. plasmonics). Das Aufheben der Translationsinvarianz längs der Oberfläche ermöglicht die direkte Anregung von SPPs durch ebene Wellen. Die Abhängigkeit dieser Kopplung von der Geometrie wird am Beispiel eines Nanograbens untersucht. Dabei werden neben den SPPs ebenfalls eine oder mehrere Moden im Graben angeregt. Folglich ermöglicht die geeignete Wahl der Grabengeometrie die Optimierung der Umwandlung von ebenen Wellen in SPPs. Im - in der Praxis weit verbreiteten - Fall asymmetrisch eingebetteter metallischer Dünnschichtwellenleiter existieren zwei Moden. In Abhängigkeit von der Grabenbreite kann die eine oder die andere Mode bevorzugt angeregt werden. Die Analyse der Wechselwirkung von SPPs mit Oberflächenstrukturen, z.B. Kanten, Stufen, Barrieren und Gräben, zeigt die Möglichkeit der Steuerung der Reflexions-, Transmissions- und Abstrahleigenschaften durch die gezielte Wahl der Geometrie der "Oberflächendefekte" auf der Nanoskala und deckt die zu Grunde liegenden Mechanismen und die daraus resultierenden Anforderungen bei der Herstellung neuer plasmonischer Komponenten auf. Exemplarisch wird das Prinzip der SPP-Anregung an einzelnen und mehreren Gräben in dünnen metallischen Filmen sowie der subwellenlängen Feldlokalisierung an sich verjüngenden metallischen Dünnschichtwellenleitern unter Verwendung der optischen Nahfeldmikroskopie experimentell gezeigt.

Nanooptics

Plasmonics

surface phonon polariton

surface plasmon polariton

plasmon

near-field optical microscopy

surface waves

Nanooptik

Oberflächenphononpolariton

Oberflächenplasmonpolariton

Plasmonen

Optische Nahfeldmikroskopie

Oberflächenwellen

ddc:530

rvk:UP 3720

Optik

Oberfläche

Phononpolariton

Plasmon

Optische Nahfeldmikroskopie

Oberflächenwelle

Live Single Cell Imaging and Analysis Using Microfluidic Devices

Khorshidi, Mohammad Ali

January 2013

Today many cell biological techniques study large cell populations where an average estimate of individual cells’ behavior is observed. On the other hand, single cell analysis is required for studying functional heterogeneities between cells within populations. This thesis presents work that combines the use of microfluidic devices, optical microscopy and automated image analysis to design various cell biological assays with single cell resolution including cell proliferation, clonal expansion, cell migration, cell-cell interaction and cell viability tracking. In fact, automated high throughput single cell techniques enable new studies in cell biology which are not possible with conventional techniques. In order to automatically track dynamic behavior of single cells, we developed a microwell based device as well as a droplet microfluidic platform. These high throughput microfluidic assays allow automated time-lapse imaging of encapsulated single cells in micro droplets or confined cells inside microwells. Algorithms for automatic quantification of cells in individual microwells and micro droplets are developed and used for the analysis of cell viability and clonal expansion. The automatic counting protocols include several image analysis steps, e.g. segmentation, feature extraction and classification. The automatic quantification results were evaluated by comparing with manual counting and revealed a high success rate. In combination these automatic cell counting protocols and our microfluidic platforms can provide statistical information to better understand behavior of cells at the individual level under various conditions or treatments in vitro exemplified by the analysis of function and regulation of immune cells. Thus, together these tools can be used for developing new cellular imaging assays with resolution at the single cell level. To automatically characterize transient migration behavior of natural killer (NK) cells compartmentalized in microwells, we developed a method for single cell tracking. Time-lapse imaging showed that the NK cells often exhibited periods of high motility, interrupted with periods of slow migration or complete arrest. These transient migration arrest periods (TMAPs) often overlapped with periods of conjugations between NK cells and target cells. Such conjugation periods sometimes led to cell-mediated killing of target cells. Analysis of cytotoxic response of NK cells revealed that a small sub-class of NK cells called serial killers was able to kill several target cells. In order to determine a starting time point for cell-cell interaction, a novel technique based on ultrasound was developed to aggregate NK and target cells into the center of the microwells. Therefore, these assays can be used to automatically and rapidly assess functional and migration behavior of cells to detect differences between health and disease or the influence of drugs. The work presented in this thesis gives good examples of how microfluidic devices combined with automated imaging and image analysis can be helpful to address cell biological questions where single cell resolution is necessary. / <p>QC 20130927</p>

Single cell analysis

time-lapse fluorescence imaging

automated image analysis

microwell

droplet microfluidics

NK cells

single cell tracking

migration behavior analysis

cell-cell interaction

optical microscopy

image analysis

image processing

microfluidics

immune cells

tracking

counting

morphology analysis

Synthèse et caractérisation de complexes métalliques de ruthénium, fer et cobalt à base des ligands terpyridine et bipyridine pour l'obtention de cristaux liquides

Ménard-Tremblay, Pierre

January 2008

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

Métallomésogenes

Cristaux liquides

Complexes de ruthénium

Complexes de fer

Complexes de cobalt

Diffraction à balayage

Diffraction des rayons-X

Microscopie optique polarisante

Metallomesogens

Liquid crystal

Ruthenium complexes

Iron complexes

Cobalt complexes

Differential scanning calorimetry

X-ray diffraction

Polarized optical microscopy

Neue sternförmige Mesogene: Strukturbildung und Chromophore

Jahr, Michael

25 May 2011

Gegenstand der vorliegenden Arbeit ist die Herstellung und Charakterisierung neuer sternförmiger Mesogene. Bei den aufgeführten Sternverbindungen, handelt es sich um Oligobenzoate, bestehend aus aromatischen Hydroxy- oder Aminocarbonsäuren, die durch Kupplungsreaktionen mit Dicylohexycarbodiimid, in einer konvergenten Synthesestrategie verknüpft wurden. Das besondere Augenmerk der Arbeit richtete sich auf die Charakterisierung der von den neuen Substanzen gebildeten Mesophasen, die mit Hilfe von Polarisationsmikrokopie, dynamischer Differenzialkalorimetrie und Röntgenstreuung erfolgte. Zur Aufklärung spezieller dreidimensionaler Strukturen wurden als zusätzliche Methoden die Rasterkraftmikroskopie angewandt und der Zirkulardichroismus untersucht.

Oligobenzoat

Veresterung

Flüssigkristall

kolumnare Mesophase

orthorhombische Mesophase

kubische Mesophase

smektische Mesophase

Röntgenstreuung

Polarisationsmikroskopie

Zirkulardichroismus

Liquid Crystal

columnar phase

cuic phase

smectic phase

x-ray diffraction

polarizing optical microscopy

circular dichroism

ddc:547

Organische Synthese

Mesomorphe Phase

Microscopias de varredura por sondas aplicadas ao estudo de amostras biológicas, vítreas e cerâmicas / Scanning probe microscopy applied to the study of biological samples, glass and ceramics

Souza, Samuel Teixeira de

07 November 2014

In this work, scanning multiprobes microscopes were used to study the physical properties of biological, vitreous and ceramics samples. In particular, we have used three different scanning probe microscopy techniques to the study the samples. At first, an atomic force microscope was used to evaluate the mechanical properties of macrophages due to cell adhesion to an extracellular matrix and to study the changes in DNA molecules conformation treated with thymol and adsorbed onto a mica surface modified by poly-L-lysine. The results of these studies show that the cytoskeleton-mediated cell-matrix interactions directly affect biomechanical events in cells by modifying physical properties of the cytoskeleton and that the modification of mica surface using poly-L-Lysine provides a strong and firm bond with DNA. This strong fixation of DNA, allows the study of DNA conformational change on mica when interacting with tymol. The atomic force microscope was also used in studies of laser induced thermal expansion in commercial phosphate glasses. The ability of this technique to detect nanoscale surface deformations and the good agreement between theoretical and experimental results show the potential of this technique to study the amplitude and the dynamic of thermal effects in solid materials. In another study, conductive atomic force microscopy was used to analyze electrical properties of barium titanate semiconductor ceramic and their correlation with specific topographic features of the sample. Finally, using the scanning near-field optical microscopy, we studied interactions between cells and gold nanoparticles, without the need of fluorescent labeling on the nanoparticles, with high spatial resolution. During the presentation of these studies the challenges and necessary instrumentation for their realization was discussed. / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Neste trabalho, microscópios de varredura multi-sondas foram utilizados para o estudo de propriedades físicas de amostras biológicas, vítreas e cerâmicas. Em especial, usamos três diferentes técnicas de microscopia de varredura por sonda no estudo destas amostras. Primeiramente, um microscópio de força atômica foi usado para avaliar os efeitos na mecânica da membrana de macrófagos, verificando a interferência da adesão celular por uma matriz extracelular. Em seguida, estudamos as mudanças de conformação de moléculas de DNA tratadas com Timol e adsorvidas sobre uma superfície de uma mica modificada por poli-L-lisina. Os resultados destes estudos implicam que as interações célula-MEC mediada pelo citoesqueleto afetam diretamente os eventos biomecânicos das membranas, modificando as propriedades físicas do citoesqueleto celular, e que a modificação da superfície da mica utilizando poli-L-Lisina proporciona uma ligação forte e firme com o DNA. Esta forte fixação do DNA, permitiu o estudo da mudança conformacional do DNA na mica quando interagindo com o timol. O microscópio de força atômica também foi usado para realizar de estudos da expansão térmica em vidros fosfatos comerciais, induzida por um laser. A capacidade desta técnica de detectar deformações superficiais em nano-escala e a boa concordância dos resultados teóricos e experimentais mostra o potencial desta técnica para o estudo da amplitude e dinâmica de efeitos térmicos em materiais sólidos. Num outro estudo, a microscopia força atômica condutora foi usada para a análise de propriedades elétricas de cerâmicas de titanato de bário semicondutor e suas correlações com características topográficas específicas da amostra. Por fim, estudamos interações entre células e nanopartículas de ouro, com o uso da microscopia de varredura em campo próximo, sem a necessidade de marcação fluorescente nas nanopartículas e com alta resolução espacial. Durante a apresentação de cada um destes estudos foi discutido os desafios e parte da instrumentação necessárias para a realização dos mesmos.

Microscopia de força atômica

Microscopia ótica de campo próximo

C-AFM

Módulo elástico

Nanoindentação

Interação luz-matéria

Expansão fototérmica

Atomic force microscopy

Near-field optical microscopy

elastic modulus

Nanoindentation

Light-matter interaction

Phototermic expansion

CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA

Estudo da corrosão do aço ao carbono em meio de sulfeto

Zimer, Alexsandro Mendes

08 September 2009

Made available in DSpace on 2016-06-02T20:34:19Z (GMT). No. of bitstreams: 1 3075.pdf: 8688023 bytes, checksum: 800e01878f1f0186b361618d6115dccd (MD5) Previous issue date: 2009-09-08 / Universidade Federal de Sao Carlos / This work presents a study of the 1020 and 1040 carbon steel corrosion in aqueous solution containing dissolved H2S in order to investigate the effect of H2Saq and HSaq species. Some different electrolytes were used: acetic acid buffer and phosphate buffer in presence or absence of 3.5 wt% NaCl solution containing 10, 25, 50, 100, 200, 500, 1000 and 2000 ppm of Na2S. The corrosion steel was described by means electrochemical impedance spectroscopy (EIS), potential polarization curves (PC), open circuit potential (Eoc) and in situ optical microscopy. Other experiments were carried out seeking to understand the steel corrosion process in sulfide solution. Thus, the influence of the 4 factors together (sulfide species, concentration, presence of chloride and steel type) was assessed by the interpretation of interactions and main effects in an experiments using factorial design. The characterization of the films was performed by electrochemical impedance spectroscopy in situ and ex situ techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS). The EIS measurements showed two distinct regions, high and low frequencies and the data analysis as a combination of diffusion and charge transference resistance, capacitances and constant phase elements (CPE). This parameters allow studying the corrosion of iron in presence of different sulfide species. The influence of total H2S concentration as well as the effect of immersion time on the corrosion was investigated too. In presence of the H2S the Rct values increase initially with immersion time but then decrease gradually. We concluded that there is formation of a protective film that reaches its maximum thickness after 3 h, and this layer is later dissolved to grow back again until reaching an equilibrium value at immersion time over 10 h. If the sulfide films has many porous, the capacitance presents high values to the corrosion process. In this case the number of defects of the sulfide films is proportional to increasing of corrosion. For the factorial design it was concluded that the species of sulfide is the most relevant factor for the corrosion process, followed by concentration and the presence of chloride in the solution. In the presence of H2S happens to active dissolution of iron and in the presence of HS- can occur the formation of a protective film. By images of in situ optical microscopy, carried out during the electrochemical measurements, one can observe the dissolution of ferrite in the pearlitic region and a formation of iron sulfide films with different colors. Morphological analysis and classification of surface corrosion damage, carried out by digital processing of images, show that happens grain-boundaries corrosion, pitting corrosion and formation of sulfide film initially over pearlitic grains. / Este trabalho apresenta o estudo da corrosão dos aços carbono 1020 e 1040 em solução aquosa contendo H2S dissolvido, em diferentes pHs de modo que se tivesse em solução as espécies H2Saq e HSaq. Os eletrólitos usados foram: tampão acetato e fosfato, na presença e ausência de 3,5% de NaCl em uma solução contendo 10, 25, 50, 100, 200, 500, 1000 e 2000 ppm de Na2S. A corrosão do aço foi estudada por meio de espectroscopia de impedância eletroquímica (EIE), curvas de polarização (CP), medidas de potencial de circuito aberto (Eca) e microscopia óptica in situ. Outros experimentos foram realizados buscando entender o processo de corrosão do aço em meio de sulfeto. Assim, a influência dos 4 fatores (espécie de sulfeto, concentração, presença de cloreto e tipo de aço) foi avaliada pela interpretação das interações e efeitos principais dentro de experimentos usando planejamento fatorial. A caracterização dos filmes foi realizada por espectroscopia de impedância eletroquímica in situ e por técnicas ex situ, como difração de raios X (DRX), microscopia eletrônica de varredura (MEV) e espectroscopia de energia dispersiva (EDS). As medidas EIE apresentaram duas regiões distintas, em alta e baixa frequências e a interpretação dos resultados envolveu uma combinação de parâmetros de circuitos equivalentes relacionados à difusão de espécies através do filme, resistências à transferência de carga, capacitâncias e elementos de fase constante (CPE). Esses elementos foram utilizados procurando descrever o mecanismo de corrosão do ferro na presença das diferentes espécies de sulfeto. A influência da concentração de H2S e o efeito do tempo de imersão da amostra de aço no meio corrosivo foi investigado. Na presença do H2S os valores Rct apresentam um aumento inicial e depois diminuem com tempo de imersão. Conclui-se que há a formação de uma película protetora que atinge uma espessura máxima em 3 h e esta camada então se dissolve e volta a crescer novamente, até atingir um valor de equilíbrio com o tempo de imersão de 10 h. Valores elevados de capacitância foram obtidos para filmes porosos e que apresentaram um grande número de defeitos levando a um aumento da corrosão. Pelo planejamento fatorial concluiu-se que a espécie de sulfeto é o fator mais relevante para o processo de corrosão, seguido da concentração e da presença de cloreto no meio. Na presença de H2S ocorre a dissolução ativa do ferro e na presença de HS- pode haver a formação de um filme protetor. Pelas imagens de microscopia óptica in situ, realizadas durante as medidas eletroquímicas, pode-se observar a dissolução da ferrita na região da perlita e a formação dos filmes de sulfeto de ferro com diferentes cores. A análise morfológica e classificação dos tipos de corrosão de superfície, realizadas por processamento digital das imagens, mostraram que ocorre a corrosão intergranular e por pites e que a formação do filme ocorre inicialmente sobre uma das fases do aço carbono, os grãos perlíticos.

Físico-química

Corrosão

Sulfeto de hidrogênio

Íons bissulfeto

Microscopia óptica in situ

Processamento digital de imagens

Sulfide corrosion

Hydrogen sulfide

Bissulfite

In situ optical microscopy

Image digital processing

CIENCIAS EXATAS E DA TERRA::QUIMICA

Comparação dos aspectos morfológicos e químicos de esmalte e dentina de dentes decíduos e permanentes / Morphological and chemical aspects comparison between enamel and dentin of permanent and deciduous teeth

Maria Angélica Hueb de Menezes Oliveira

08 July 2009

O objetivo deste estudo in vitro foi avaliar e comparar a microestrutura e a composição mineral do esmalte e da dentina de dentes decíduos e permanentes. Terceiros molares hígidos e segundos molares decíduos foram selecionados e distribuídos aleatoriamente em grupos, de acordo com o método de análise dos substratos utilizado: Microscopia Eletrônica de Varredura (MEV), Espectroscopia de Energia Dispersiva de Raio X (EDX), Difração de Raio X (DRX) e Microscopia Óptica (MO). Foi realizada comparação qualitativa e quantitativa da estrutura dental. As medidas de densidade numérica e diâmetro dos prismas de esmalte/túbulos dentinários e, de espessura do esmalte, dentina e dentina peritubular foram realizadas por meio de fotomicrografias obtidas pela MEV. Os resultados obtidos por meio da SEM foram analisados estatisticamente pelo teste não-paramétrico de Kruskal-Wallis. A quantidade relativa de íons cálcio (Ca) e fósforo (P) foram determinadas por meio de EDX e as fases químicas presentes em ambos os substratos, por análise de DRX. O valor das medidas de espessura observado para o esmalte e dentina dos dentes decíduos foi de 1.14 mm e 3.02 mm, respectivamente. Para os dentes permanentes, obtiveram-se valores de 2.58 mm para o esmalte e 5.95 mm para a dentina. Com relação ao diâmetro da cabeça dos prismas de esmalte, os resultados foram estatisticamente semelhantes para os dentes decíduos e permanentes, demonstrando uma ligeira diminuição do diâmetro da superfície externa para a região próxima a junção amelodentinária (JAD). A densidade numérica dos prismas foi maior nos dentes decíduos, principalmente próximo à JAD, sendo estatisticamente diferente dos valores observados nos dentes permanentes, independente da região analisada. Na análise do diâmetro e densidade numérica dos túbulos dentinários verificou-se semelhança estatística entre os dentes decíduos e permanentes, havendo aumento gradativo do número de túbulos a partir da JAD em direção a região próxima a polpa. A espessura da dentina peritubular, na região próxima a JAD e central foi, respectivamente, 0.91 e 0.59 mm nos dentes decíduos 1.16 e 0.98 mm nos dentes permanentes. A porcentagem de Ca e P foi maior nos dentes permanentes. Observou-se ainda, que a quantidade de colágeno nos dentes decíduos foi aparentemente menor quando analisados por meio da MO. De acordo com os resultados obtidos neste estudo, pode-se concluir que, de maneira geral, os dentes decíduos apresentam menor porcentagem de Ca e P, menor espessura de esmalte e dentina, maior densidade numérica de prismas e dentina peritubular mais delgada quando comparada aos dentes permanentes. / This study evaluated in vitro the microstructure and mineral composition of dental enamel and dentin comparing the permanent teeth with the deciduous teeth. Sound third molars and second primary molars were selected and randomly assigned to the following groups, according to the analysis methods of the substrates performed: Scanning Electron Microscopy (SEM), X-Ray diffraction (XRD), Energy dispersive X-ray spectrometer (EDS) and Optical Microscopy (OP). A qualitative and quantitative comparison of the dental structure was done. The measurements of the number and diameter of prisms/tubules, thickness of enamel, dentin and peritubular dentin were done in SEM photomicrographs. The microscopic findings were analyzed statistically by a non-parametric test (Kruskal- Wallis). The relative amounts of calcium (Ca) and phosphorus (P) were determined by EDS investigation. Phase present in both types of teeth were observed by the XRD analysis. The mean thickness measurements observed in the deciduous teeth enamel and dentin was, respectively, 1.14 mm and 3.02 mm and in the permanent teeth, 2.58 mm and 5.95 mm. The mean rod head diameter in deciduous teeth was statistically similar to that of permanent teeth enamel, and a slightly decrease from the outer enamel surface to the region next to the enameldentine junction was assessed. The numerical density of enamel rods was higher in the deciduous teeth, mainly near EDJ, that showed statistically significant difference. The mean tubules number and diameter in deciduous teeth were statistically similar to that of permanent teeth, and this numerical density increased from the EDJ to the region near the pulp. The mean thickness measurements of peritubular dentin observed in the regions near EDJ and central were, respectively, 0.91 and 0.59 mm for the primary teeth / 1.16 and 0.98 mm for the permanent teeth. The percentage of Ca and P was higher in the permanent teeth. The collagen level was apparently lower in deciduous teeth when analyzed by OP. The primary teeth structure showed a lower level of Ca and P and a thinner enamel and dentin thickness. The deciduous enamel presented higher numerical density of rods. The peritubular dentin was thicker in the permanent teeth.

dentes decíduos

dentes permanentes

difração de raio-x

espectroscopia dispersiva de raio-x

microscopia eletrônica de varredura

microscopia óptica

deciduous teeth

Energy dispersive X-ray spectrometer

optical microscopy

permanent teeth

scanning electron microscopy

XRay diffraction

The influence of the Ionic Liquid [C14MIM][Cl] on the structural and thermodynamic features of zwitterionic and anionic model membrane / A influência do Líquido Iônico [C14MIM][Cl] nas características estruturais e termodinâmicas de membranas modelos zwiterionicas e ânionicas.

Luma Melo de Oliveira

17 March 2017

Ionic Liquids (ILs) has been attracting attention, both from academia and industry, given the numerous applications of these systems. ILs are salts, usually composed by an organic ion, and a counterion which could be organic or inorganic, and, interestingly they are found at liquid state at room temperature. Our interest in studying ILs comes from its low toxicity. Some recent studies have shown that the toxicity of the ILs ishigher than believed, in particular for biologically relevant systems. The main goal of this research is to study the influence of the ionic liquid 1-tetradecyl-3-methylimidazolium chloride ([C14MIM][Cl]) with membrane systems. To do so, we made use of different lipids: POPC, Sphingomyelin, Cholesterol, POPG, DPPC, DPPG and DMPC. For each of these systems, the influence of ILs concentration were elucidated by means of a systematic study through different experimental techniques: Small Angle X-ray scattering (SAXS), dynamic light scattering (DLS), fluorescence anisotropy, optical microscopy and z-potential. Since [C14MIM][Cl] has a positive charge on the imidazolium group, the superficial charge of all vesicles increased. For zwitterionic vesicles no significant change in size and melting temperature were noticed. The imidazolium-based ionic liquid diminished the gel-fluid transition temperature for negatively charged lipids. For DPPC:DPPG (1:1), for instance, the transition temperature decreased from 42.50±0.13oC to 25.27±0.33oC and for DPPG from 46.12±0.22 oC to 36.6±0.38 oC. For DPPG, the vesicle hydrodynamic diameter increased from 84±0.1nm to 176±0.1nm, whereas for DPPC:DPPG it increased from 95±0.1nm to 196±0.1nm. The electronic density profile, obtained by SAXS, supported the penetration of the [C14MIM][Cl] into the negative bilayer structure. 15 mol% of [C14MIM][Cl] increased the polar head thickness of DPPC vesicles from 11.1±0.6 Å to 18.0±0.7 Å, without alter significantly the inner region of the membrane.Qualitative results obtained with optical microscopy showed that the IL incorporation destabilize the membrane asymmetry (between the leaflets) leading to the formation of pores (evidenced by optical contrast lost) and the presence of buds. We believe that this work could improve the understanding of the effects of ILs in the presence of biological relevant systems / Os líquidos iônicos (LI) tem atraído grande atenção, tanto da academia quanto da indústria, devido às suas numerosas aplicações. LI são sais, normalmente compostos por um íon orgânico, e um contra-íon que pode ser orgânico ou inorgânico, mas que tem como característica ser encontrado no estado líquido à temperaturas próximas a ambiente. Nosso interesse em estudar LIs vem de sua baixa toxicidade, atribuída a sua baixa volatilidade. Entretanto, alguns estudos recentes mostraram que a toxicidade dos LI é maior do que se acreditava, em particular com sistemas de relevância biológica.O objetivo principal desta dissertação é estudar a influência do líquido iônico 1-tetradecil-3-metilimidazólio cloreto ([C14MIM][Cl]) com sistemas de membrana. Para isso, utilizamos diferentes lipídios, como o POPC, esfingomielina, colesterol, POPG, DPPC,DPPG e o DMPC. Para cada um destes sistemas, a influência da concentração de LI foi elucidada por meio de um estudo sistemático através de diferentes técnicas experimentais, tais como: espalhamento de raio-X a baixos ângulos (SAXS), espalhamento dinâmico de luz (DLS), anisotropia de fluorescência, microscopia óptica e potencial-z. Uma vez que o componente iônico de [C14MIM][Cl] tem uma carga positiva no grupo imidazólio, a carga superficial de todas as vesículas estudadas aqui aumentou. Entretanto, para asvesículas compostas pelos lipídeos zwitteriónicos, não tenha sido observada qualquer alteração significativa no tamanho e na temperatura de transição de fase gel-fluido. O [C14MIM][Cl] altera a organização interna entre as moléculas de lipídio com carga negativa. Consequentemente, à medida que a quantidade de LI aumenta, a temperatura de transição de fase diminui e o tamanho médio das vesículas aumenta. Para o sistema DPPC:DPPG (1:1) a temperatura de transição de fase caiu de 42.50 ± 0.13 oC para 25.27 ± 0.33 oC e para as vesículas de DPPG de 46.12±0.22 oC para 36.6±0.38 oC. Quanto ao diâmetro hidrodinâmico médio, no caso do DPPG este valor aumentou de 84±0.1 nm para 176±0.1 nm, enquanto que para a mistura DPPC:DPPG (1:1) ele passou de 95±0.1nm para 196±0.1nm. Indicando assim que o LI incorpora na bicamada lipídica negativamente carregada. O perfil de densidade eletrônica, obtido por SAXS, confirma a penetração do [C14MIM][Cl] na bicamada lipídica. Diferentemente, para a membrana lipídica zwitteriónica o LI tende a se situar perto da região da cabeça polar sem afetar significativamente a região do interior da bicamada lipídica. Por outro lado, a presença de15 mol% de [C14MIM][Cl] aumenta a espessura da região polar das bicamadas das vesículas de DPPC de ~ 11.1±0.6 Å para ~ 18.0±0.7 Å. Os resultados qualitativos da microscopia óptica mostraram que a incorporação da LI desestabiliza a assimetria da membrana entre as camadas interna e externa, além de sugerir o aparecimento de poros (evidenciado pela perda do contraste ótico das vesículas) e estruturas chamadas de buds. Esperamos que este trabalho melhore a compreensão dos efeitos do LI na presença de organismos biológicos.

anisotropia de fluorescência

DLS

lipídios

liquidos iônicos

membranas modelo

microscopia ótica.

potencial zeta

SAXS

tensão superficial

DLS

fluorescence anisotropy

ionic liquids

lipids

model membranes

optical microscopy

SAXS

surface tension

zeta potential

Tratamento preventivo do esmalte dental exposto à situação de alto desafio cariogênico: estudo in vitro / Preventive treatments of dental enamel exposed to high cariogenic challenge: in vitro study

Soraya Mameluque

02 October 2014

O objetivo do presente trabalho foi avaliar diferentes tratamentos na remineralização do esmalte desmineralizado em situação de alto desafio cariogênico. Foram utilizados 55 fragmentos de esmalte bovino (4mmX4mmX2mm) planificados e polidos. Os espécimes foram cobertos com resina composta ficando exposta apenas a metade da superfície externa (2mmX4mm) e então, foram imersos em solução tampão de acetato (pH 4,7) por 43 horas para formar a lesão de desmineralização. Os espécimes foram divididos aleatoriamente em 5 grupos (n=11), de acordo com os tratamentos preventivos: 1- Controle (sem tratamento); 2- Verniz fluoretado a 5% Duraphat®; 3- Flúor-gel 1,23%; 4- MI PasteTM; e 5- MI Paste PlusTM. Os tratamentos foram realizados uma vez por semana durante 3 semanas. Nos intervalos das aplicações os espécimes foram submetidos a ciclos de pH (DES/RE) num total de 21 dias. Após a finalização da ciclagem os fragmentos foram seccionados longitudinalmente, sendo que em uma metade foi analisada a microdureza longitudinal, pelo cálculo da variação percentual da dureza e na outra metade foi avaliada a profundidade de desmineralização do esmalte através de microscopia óptica. Para a análise em FTIR, pó do esmalte foi obtido dos espécimes em três diferentes momentos: inicial sem desmineralização da superfície, após a desmineralização por 43 horas e após o tratamento. Para análise da microdureza longitudinal empregou-se a variação da dureza. Os dados foram analisados quanto a sua distribuição, porém como não foram normais realizou-se uma análise não paramétrica comparando grupo contra grupo pelo Mann Whitney test com &alpha;=5%. Para análise da profundidade de desmineralização, como os dados se apresentaram normais e homogêneos, realizou-se a análise de variância a 1 critério e teste Holm- Sidak para comparação das médias com &alpha;=5%. Para análise em FTIR fez-se apenas uma análise descritiva dos dados. Na análise dos dados pode-se observar que houve diferença estatística significante entre o grupo controle (G1) com o grupo flúor-gel (G3) (p<0,05), o qual apresentou menor perda de dureza e menor profundidade de desmineralização. Os grupos 2, 4 e 5 foram similares entre si e com o G1 para as duas propriedades analisadas. Na análise da absorbância nos diferentes comprimentos de onda pode-se observar um padrão similar em todas as amostras; a banda de fosfato inicial foi mais larga e posicionada em número de ondas menores. Após a desmineralização, esta banda ficou mais estreita e deslocada para número de ondas maiores. Esse comportamento se repetiu e foi similar para todos os grupo. Baseado nos resultados obtidos pode-se concluir que nenhum dos tratamentos preventivos realizados foi capaz de inibir o processo de desmineralização ou promover a remineralização em situações de alto risco a cárie, embora o flúor-gel tenha permitido uma evolução mais lenta da desmineralização / The aim of this study was to evaluate different treatments on remineralization of demineralized enamel in a high cariogenic challenge. 55 enamel fragments (4mmX4mmX2mm) flat and polished were used. The specimens were covered with composite exposed only half of the outer surface (2mmX4mm) and then were immersed in acetate buffer solution (pH 4.7) for 43 hours to form the demineralization lesion. The specimens were randomly divided into 5 groups (n = 11) according with the preventive treatments: 1 - Control (no treatment); 2 - 5% fluoride varnish Duraphat ®; 3 - Fluoride-gel 1.23%; 4 - MI PasteTM; and 5 - MI Paste PlusTM. The treatments were carried out once a week for 3 weeks. During intervals and among applications the specimens were subjected to pH cycles (DES / RE) for a total of 21 days. After finished of the cycling, the samples were longitudinally sectioned, and one half in the longitudinal microhardness was analyzed and the other half the depth of enamel demineralization using optical microscopy was evaluated. For data analyzed was calculate the percentage change in the hardness. For FTIR analysis, the enamel powder was obtained from specimens at three different times: without demineralization of the surface, after demineralization for 43 hours and after treatment. Data were analyzed for their distribution, but they were not normal there was a non-parametric analysis comparing group versus group by t test (Mann- Whitney test) with &alpha;= 5%. To analyze the depth of demineralization, as the data were normal and homogeneous, we performed analysis of variance criterion 1 and Holm-Sidak test for comparison of means with &alpha;= 5%. For FTIR was realized of descriptive analysis of the data. Data analyzed showed statistically significant difference between the control group (G1) with the fluoride gel group (G3) (p <0.05), which showed less loss of lower hardness and depth of demineralization. Groups 2, 4 and 5 were similar among them and with G1 for two properties analyzed. The analysis of the absorbance at different wavelengths can be observed a similar pattern in all samples; band initial phosphate was wider and placed on the number of smaller waves. After demineralization, this band became narrower and shifted to higher wave number. This behavior was similar for all groups and it is repeated for every group. Based on the results this study it can be concluded that none of the preventive treatment carried out was able to inhibit the demineralization or promote remineralization in high caries risk situations, although fluoride gel has allowed a slow evolution of demineralization

Cárie dentária

Esmalte dentário

Microdureza

Microscopia óptica

Tratamentos preventivos

Dental caries

Dental enamel

Microhardness

Optical microscopy

Preventive treatments