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

Determinação da concentração de elementos químicos potencialmente tóxicos em aerossóis presentes no interior de uma pequena indústria de fundição de metais, utilizando amostrador temporal e a técnica de fluorescência de raios X / Toxic inorganic elements content in suspended particulate matter inside a small foundry plant by streaker sampler and energy dispersive X-ray fluorescence technique

Paulo Rogério Massoni

09 March 2009

Este trabalho foi desenvolvido objetivando a determinação e a avaliação dos perfis temporais da concentração de alguns elementos químicos potencialmente tóxicos presentes no material particulado em suspensão (MPS) no interior de uma pequena indústria de fundição de metais bronze, ferro e alumínio que, em concentrações elevadas, podem acarretar sérios riscos à saúde do trabalhador. Para isso foi utilizado um amostrador temporal de MPS, que coleta amostras de aerossóis em intervalo de tempo pré-programados, separando-os por tamanho: (a) fração fina ou respirável (partículas com diâmetro aerodinâmico menor que 2,5 m, MP2,5) e (b) fração grossa ou inalável (entre 2,5 a 10 m, MP10-2,5), durante todo o período do processo de fundição (da fusão à moldagem). As amostras coletadas, na forma de faixas (strips) sobre um filtro (fração fina) e sobre um impactador (fração grossa), foram analisadas pela técnica de fluorescência de raios X por dispersão de energia (EDXRF), utilizando na excitação um tubo de raios X com alvo de Mo e e na detecção dos raios X característicos um detector semicondutor de Si(Li) acoplado a um analisador de pulsos multicanal, interpretando-se posteriormente os espectros de raios X obtidos pelo aplicativo AXIL. Para algumas amostras também foi feita uma análise com microscópio eletrônico de varredura (SEM/EDS) para se conhecer a morfologia dos particulados. Deste modo foi possível determinar a concentração de elementos químicos potencialmente tóxicos presentes em um ambiente de uma pequena indústria de fundição de metais, mostrando que o momento mais crítico dessa atividade foi o da moldagem e também determinar a forma do MPS. Na fundição do bronze e ferro, as concentrações dos elementos Cr, Mn, Ni e Pb, principalmente na fração fina no momento de moldagem, mostraram-se muito superior aos limites recomendados pelas agências brasileira e norte-americana. Apesar de não haver limites recomendados para o elemento Zn, foi verificada uma alta concentração principalmente na concentração na fração fina, o mesmo sucedendo para o Cu. Com respeito a fundição de alumínio, foi observado altas concentrações principalmente de Zn e Cu, somente na fração fina, não ocorrendo na fração grossa. Pelos resultados obtidos pode-se concluir que os trabalhadores estão sujeitos a condições insalubres de trabalho nesse tipo de ambiente, aconselhando-se o uso permanente de equipamentos adequados de proteção visando de preferência a fração fina, assim como um monitoramento constante desses elementos químicos durante todas as etapas do processo de fundição, principalmente na de moldagem / The aim of this work was to evaluate the chemical concentration of some potentially toxic inorganic chemical elements and the time profiles in fine (PM2.5, particles up to 2.5 m) and coarse (PM2.5-10, particles from 2.5 to 10 m) suspended particulate matter (SPM) inside a small foundry plant - bronze, iron and aluminium -, in which at high concentrations turns a healthy concern. For these purpose, a rotating streaker airparticulate sampler for sampling during all day foundry activity was utilized. Fine SPM was collected on a filter and coarse SPM in turn by an impactor. The collected samples were analyzed by energy dispersive X-ray fluorescence (EDXRF) technique employing a Mo target tube in the excitation, and the detection was carried out through Si(Li) semiconductor detector coupled to multichannel analyser, deconvolutting the X-ray spectra with AXIL software help. It was also carried out particulated morphological analysis by scanning electron microscopy with energy dispersive X-ray spectrometer coupled (SEM/EDS). In this manner, the inorganic chemicals content were determined in the small foundry allowing concluding that the moulding step is the critical one taking into account the amount of pollutant released. During bronze and iron melting, the Cr, Mn, Ni and Pb contents in SPM were higher than allowed values by Brazilian and United States legislations. It was also verified a high Zn and Cu content, mainly in the fine suspended particulate matter, although these elements are not contemplated by national nor international laws. Thus, due to this unhealthy environmental working conditions inside the small foundry plant,a proper individual protection equipment is mandatory mainly for fine suspended particulate matter, and a constant air pollutant monitoring in foundry plants is demanded, mainly during the moulding step

Amostrador rotativo

EDXRF

Fundição de metais

Material particulado em suspensão

Poluição ambiental

Saúde do trabalhador

EDXRF

Energy dispersive X-ray fluorescence

Environmental pollution

Metals foundry

Streaker sampler

Suspended particulate matter

Worker health

[en] DETERMINATION OF SILICON AND ALUMINUM IN CRUDE OIL USING ENERGY DISPERSIVE X-RAY FLUORESCENCE SPECTROMETRY / [pt] DETERMINAÇÃO DE SILÍCIO E ALUMÍNIO EM PETRÓLEO POR ESPECTROMETRIA DE FLUORESCÊNCIA DE RAIOS-X POR DISPERSÃO DE ENERGIA

MARLIN JEANNETTE PEDROZO PEÑAFIEL

15 May 2018

[pt] A determinação de diferentes níveis de silício e alumínio em petróleo é importante porque pequenas quantidades destes elementos podem produzir efeitos adversos nas refinarias devido à corrosão de equipamento ou afetar a qualidade dos produtos refinados. A espectrometria de fluorescência de raios-X por dispersão de energia (EDXRF) foi utilizada para desenvolver um método para a determinação de Si e Al em petróleo, onde estes elementos se encontram principalmente sob a forma de partículas sólidas de aluminossilicatos dispersas na amostra. Uma vez que os analitos não puderam ser determinados sem interferência diretamente no óleo, a fusão das amostras de petróleo foi realizada utilizando tetraborato de lítio. Em seguida, as amostras fundidas foram colocadas no centro de papéis de filtro de 10 mm de diâmetro, que foi colocado entre duas folhas de filme de polipropileno, para então ser fixado à cubeta para as medições no instrumento. A quantificação foi feita por meio de curvas analíticas no intervalo de concentração de 0 a 40 mg kg(-1) (para ambos os elementos) no material fundido final. O método desenvolvido, não sofreu interferência matriz uma vez que as amostras foram completamente decompostas e, posteriormente secas no substrato. Os resultados para os elementos foram estatisticamente comparáveis com os obtidos por espectrometria de absorção atômica com chama (FAAS). Além disso, os resultados concordaram com os obtidos nas amostras de programas de proficiência da ASTM. Amostras reais de petróleo, fornecidas pela Petrobras, também foram analisadas. As recuperações alcançadas se encontram entre 71 e 100 por cento para as diferentes amostras, o qual pode ser considerado satisfatório devido à dificuldade em se determinar esses elementos. Os limites de quantificação (10 vezes o desvio-padrão, n=10) encontrados para o Si e Al no petróleo foram de 0,7 e 1,1 mg kg(-1), respectivamente, mostrando o potencial do método proposto para a determinação de amostras com valores mais elevados destes elementos. / [en] It is important to determine silicon and aluminum at different levels in crude oils because of trace amounts of these elements may produce adverse effects in oil refining either by causing corrosion or by contaminating and affecting the quality of the refined products. Energy dispersive X-ray fluorescence spectrometry (EDXRF) was used to enable a reliable method for determination of Si and Al in crude oil, where these elements are found mainly in the form of solid aluminosilicate particles dispersed in the sample. Since the analytes could not be determined directly in the oil without interference, the fusing the crude oil samples was made using lithium tetraborate. Then, the fused samples were placed in the center of 10 mm diameter filter paper that were sandwiched between two polypropylene film foils and attached to the instrument cell for measurements. Quantification was made by using analytical curves in the concentration range from 0 to 40 mg kg (-1) (for both elements) in the final fused material. The method developed did not suffer from matrix effect once the sample matrix was completely decomposed and the sample solution dried in the substrate before measurements. The results for the elements were statistically comparable to the ones obtained by flame atomic absorption spectrometry (FAAS). In addition, for proficiency test samples, the results were in accordance to the ones reported by ASTM proficiency programs. Real samples of oil provided by Petrobras Company also were analyzed. Recoveries were achieved between 71 and 100 percent for different samples, which can be considerable satisfactory because of the difficulty in determine those elements. The limits of quantification (10 times the standard deviation. N = 10) found for silicon and aluminum in the oil were of 0.7 and 1.1 mg kg (-1), respectively, showing the potential of the proposed method to screen for samples with higher amounts of these elements.

[pt] ALUMINIO

[en] ALUMINUM

[pt] ANALISE DE PETROLEO

[en] PETROLEUM ANALYSIS

[pt] SILICIO

[en] SILICON

[pt] AMOSTRAGEM NO SUBSTRATO SOLIDO

[en] SOLID SUBSTRATE SAMPLING

Synthesis, optical and morphological characterization of pbse quantum dots for diagnostic studies: a model study

Ouma, Linda Achiengꞌ

January 2013

>Magister Scientiae - MSc / In this study PbSe quantum dots (QDs) were successfully synthesized via the organometallic and aqueous routes. Optical characterization was carried out using photoluminescence (PL) spectroscopy, structural and morphological characterization were carried out using X-ray diffraction (XRD) and transmission electron microscopy (TEM). Energy-dispersive X-ray spectroscopy (EDS) was used to determine the composition of the QDs. All the synthesized QDs were found to have emissions within the near-infrared region of the spectrum (≥1000 nm) with most of them being less than 5 nm in size. The aqueous synthesized QDs had a perfect Gaussian emission spectrum with a FWHM of ~23 nm indicating pure band gap emission and narrow size distribution respectively. The QDs were determined to have a cubic rock-salt crystal structure consistent with bulk PbSe. The aqueous synthesized QDs were however not stable in solution with the QDs precipitating after approximately 48 h. The organometallic synthesized QDs were transferred into the aqueous phase by exchanging the surface oleic acid ligands with 11-mercaptoundecanoic acid ligands. The ligand exchanged QDs were however stable in solution for over two weeks. The effects of reaction parameters on the optical and structural properties of the organometallic synthesized QDs were investigated by varying the reaction time, temperature, ligand purity, lead and selenium sources. It was observed that larger QDs were formed with longer reaction times, with reactions proceeding faster at higher reaction temperatures than at lower temperatures. Varying the ligand purity was found to have minimal effects on the properties of the synthesized QDs. The lead and selenium sources contributed largely to the properties of the QDs with lead oxide producing spherical QDs which were smaller compared to the cubic QDs produced from lead acetate. TBPSe was seen to produce smaller QDs as compared to TOPSe. The cytotoxity of the synthesized QDs was determined following the WST-1 cell viability assay with the QDs being found to be non-toxic at all the tested concentrations

PbSe

Quantum dots (QDs)

Semiconductor nanocrystals (NCs)

Near-infrared (NIR)

Organometallic synthesis

Aqueous synthesis

Ligand exchange

Photoluminescence spectroscopy (PL)

3-Mercaptopropionic acid (MPA)

11-Mercaptoundecanoic acid (MUA)

Water-soluble tetrazolium salt (WST-1)

Bond behavior of cement-based repair materials under freeze-thaw and cyclic loading conditions

Wang, Boyu

22 April 2022

According to the 2019 Canadian infrastructure report card, a concerning amount of municipal infrastructure is in poor or very poor condition. The infrastructure in this condition requires immediate action for rehabilitation or replacement. For concrete infrastructure, an effective repair can extend its service life and ensure that the services it provides continue to meet the community expectations. However, unfavorable environmental factors such as repeated/cyclic loads and freezing and thawing cycles adversely affect the bond between substrate concrete and repair materials, which lowers the structural capacity of repaired structures. So far, researchers have found that bond strength of repair can be affected by surface roughness, surface moisture, chemical adhesion or cohesion, curing regime, properties of substrate and repair materials, use of bond agent, and curing regimes. These findings are mostly based on the studies that focused on cold-jointed cylinders or beams, but in real-life repair situations, repairs of beams or slabs are located at either tension or compression side of the structure. Currently, there is no comprehensive study that investigates the bond of concrete repair under a combination of freezing and thawing and repeated/cyclic loading conditions. In addition, it is challenging to provide a rapid and non-destructive evaluation of the bond deterioration of repair materials. To address these issues systematically, this dissertation breaks the task into four phases. Phase (I) focuses on the development of an engineered “crack-free” repair mix that contains polypropylene (PP) fiber. A novel method is used to surface treat the PP fibers with supplementary cementitious materials. The effectiveness of surface-treating fibers for improved bond strength and reduced cracking is investigated. The compressive, tensile, and flexural strength of this engineered repair mix are determined and compared with two commercially available repair materials. The results from Phase I show that by adding 0.2% (by weight) Metakaolin-treated fibers into concrete mix, the compressive strength improves by up to 15.7% compared to mixes with untreated fibers. This study achieved a strength increase of 13.5% as compared to the reported 3.3% in other studies that use 25 times the amount of metakaolin used in this study. The experimental results confirm that at 0.2% dosage level, the use of novel surface treating technique is a cost-effective way to improve the strength of repair materials. Phase (II) focuses on characterizing the bond strength of various repair systems after freezing-thawing (FT) damage using both non-destructive and destructive methods. Two innovative sounding methods, which overcome the subjectivity of the traditional chain drag method, are used to evaluate FT damage non-destructively. In the experimental study, beams with a U-shaped cut are made to simulate conditions experienced by a concrete structure during a typical repair project. Three types of repair materials are used including cementitious repair concrete, cementitious repair mortar, and polymer-modified cementitious mortar. After up to 300 cycles of freeze-thaw exposure, resonant frequency and bond flexural strength of the prismatic specimens are determined. The empirical equations relating Non-destructive test (NDT) measurements and flexural bond strength of the repaired structures after freeze-thaw (FT) exposure are proposed. The results from Phase II show that the change in dynamic modulus of elasticity determined from NDTs agrees well with the change in other measurements including flexural bond strength, interfacial crack width, and mass loss after freeze-thaw exposure. In this study, linear relationships are established between dynamic modulus of elasticity and flexural bond strength for both cementitious and polymer-modified cementitious repair mortar with a coefficient of determination ranging between 0.87 and 0.95. The proposed empirical models can be used to predict bond flexural strength of repaired structures based on NDT measurement. Also, it was found that the samples repaired with polymer-modified cementitious mortar (Mix P) have superior FT resistance compared to other repaired samples. Phase (III) focuses on investigating the structural capacity and bond performance of repaired beams after cyclic/repeated loading. To accelerate the test process, a novel modified loading regime consisting of cycle groups of increasing cyclic/repeated stress amplitude is proposed. The models proposed by literature and current codes and standards are used to validate the results. Phase (IV) focuses on the development of the damage models for both individual and combined FT and cyclic loading exposure on repaired concrete structures. The results in phase III show the feasibility of using the Palmgren-Miner rule and Goodman linear model to estimate the fatigue life of repaired structures. This was confirmed within the context of this study. This study established the usefulness of using groups of increasing cyclic stress amplitude to accelerate the fatigue test process. The two-million cycle fatigue endurance limit estimated using cycle groups of Mix S (70.8%) was very similar to what was reported in the literature (71%) using the traditional time-consuming cyclic loading method. This study found that the formulas proposed by CSA 23.3 can effectively predict the moment resistance of both intact (control) and repaired RC beams. The ratio of experimental moment resistance values to its predictions ranges from 0.91 to 1.04. Based on the experimental results of previous three phases, an empirical model that predicted the fatigue service life of FT-damaged concrete structures is proposed. Future research requires a more comprehensive study on the FT performance of various polymer-modified cementitious mortars of different mix designs in repairing concrete structures. By increasing the number of tested specimens, a better relationship could be established between destructive and NDT methods. Future research is also required to explore the combined effect of FT and cyclic loading on repaired RC structures experimentally. / Graduate / 2023-03-22

Fiber coating

Repair mortar

Scanning electron microscopy (SEM)

Bond

Non-destructive test (NDT)

Resonant frequency test (RFT)

Acoustic sensors

Image analysis

Freezing and thawing

Cyclic loading

Hysteric behavior

Steel reinforced concrete

Ion irradiation effects on high purity bcc Fe and model FeCr alloys / Effets de l'irradiation d’ions sur fer cubic centrée de haute pureté et FeCr alliage modèle

Bhattacharya, Arunodaya

09 December 2014

Les alliages binaires FeCr de structure FM (ferrito/martensitique) sont actuellement les candidats les plus prometteurs comme matériaux de structure pour les réacteurs rapides refroidis au sodium et les futurs systèmes de fusion. Cependant, l'impact de Cr sur l'évolution de la microstructure irradié dans ces matériaux n’est pas bien compris. De plus, particulièrement pour les applications de fusion, le scénario de dégâts d'irradiation devrait être compliquée en outre par la présence de grandes quantités d'hélium produit par transmutation nucléaire (~ 10 appm He / dpa). Dans ce contexte, une étude spécifique des effets de l'irradiation ionique (influence du Cr et de l’He sur l’évolution de la microstructure) a été menée à 500 ° C sur une grande variété d’alliages FeCr de haute pureté (à teneur en Cr allant de ~ 3 wt.% À 14 wt.%) ainsi que sur du Fe pur. Les irradiations ont été effectuées à l'aide ions Fe, en mode mono-faisceau et mode dual-beam (irradiation par des ions Fe et co-implantation d'He) afin de pouvoir séparer le dommage ballistique de l’implantation couplée avec de l’He. Trois différentes doses ont été étudiées: dose élevée (157 dpa, avec 17 appm He / dpa), dose intermédiaire (45 dpa, avec 57 appm He / dpa) et in situ à faible dose (0,33 dpa, avec 3030 appm He / dpa). Les expériences ont été effectuées en utilisant l'installation JANNuS triple faisceau du CEA-Saclay et la plateforme in-situ du CSNSM-Orsay. L’évolution microstructurale des échantillons est essentiellement faite par MET, SAT et par EDS en mode STEM. Les principaux résultats sont les suivants : 1) L’étude détaillée de la population des cavités dans du Fe irradié à forte dose a révélé une forte réduction du gonflement du fait de l'ajout d’He. Une réduction drastique de la taille des cavités en dépit d’une densité plus élevée a été observée. Ce comportement a été observé tout au long zone irradié, jusqu’au pic d’endommagement. 2) La microstructure de cavités a également été étudiée dans les alliages FeCr irradiés en double faisceau à forte dose, et les résultats ont été comparés à ceux obtenus dans le Fe pur. L'analyse a été effectuée à une profondeur intermédiaire de 300 à 400 nm sous la surface (pour éviter les effets des interstitiels injectés et les effets de surface), correspondant à 128 dpa, 13 appm He / dpa. L’étude par TEM a montré que l'addition de petites quantités de Cr, aussi basse que 3wt.%, est très efficace pour réduire fortement le gonflement. Une réduction drastique de la taille des cavités a été mise en évidence. Par exemple, la taille moyenne des cavités pour l’alliage Fe3% Cr est de l’ordre de 0,9 nm alors qu’elle est voisine de 6,8 nm pour le Fe pur. De plus, la variation du gonflement en fonction de la teneur en Cr n’est pas monotone et présente un maximum local à environ 9 -. 10wt% Cr. 3) Le couplage des différentes techniques d’analyse, MET classique, STEM/EDS et analyse SAT appliqué à l’étude des alliages FeCr irradiés à faible et moyenne dose révèle la présence de zones enrichies en Cr sur le plan d’habitat des boucles de dislocation. Ce phénomène est relié à un phénomène de ségrégation induite par irradiation (RIS) de Cr au voisinage du coeur des boucles de dislocation. Quand la boucle se développe sous irradiation, les zones de ségrégation ne peuvent probablement pas se redissoudre du fait de la présence d'impuretés telles que le C. Lorsque les boucles sont imagées par MET, ces zones enrichies produisent des franges de contraste au voisinage du plan de la boucle. Une estimation quantitative de cet enrichissement a été déduit par STEM / EDS et l'SAT. La teneur en Cr dans ces domaines se situe entre 23 -. 35% par EDS et 22 % par SAT, ce qui est bien en dessous de la teneur en Cr de la phase α’ riche en Cr. / FeCr binary alloys are a simple representative of the reduced activation ferritic/martensitic (F-M) steels, which are currently the most promising candidates as structural materials for the sodium cooled fast reactors (SFR) and future fusion systems. However, the impact of Cr on the evolution of the irradiated microstructure in these materials is not well understood in these materials. Moreover, particularly for fusion applications, the radiation damage scenario is expected to be complicated further by the presence of large quantities of He produced by the nuclear transmutation (~ 10 appm He/dpa). Within this context, an elaborate ion irradiation study was performed at 500 °C on a wide variety of high purity FeCr alloys (with Cr content ranging from ~ 3 wt.% to 14 wt.%) and a bcc Fe, to probe in detail the influence of Cr and He on the evolution of microstructure. The irradiations were performed using Fe self-ions, in single beam mode and in dual beam mode (damage by Fe ions and co-implantation of He), to separate ballistic damage effect from the impact of simultaneous He injection. Three different dose ranges were studied: high dose (157 dpa, 17 appm He/dpa for the dual beam case), intermediate dose (45 dpa, 57 appm He/dpa for dual beam case) and in-situ low dose (0.33 dpa, 3030 appm He/dpa for the dual beam case). The experiments were performed at the JANNuS triple beam facility and dual beam in situ irradiation facility at CEA-Saclay and CSNSM, Orsay respectively. The microstructure was principally characterized by conventional TEM, APT and EDS in STEM mode. The main results are as follows: 1) A comparison of the cavity microstructure in high dose irradiated Fe revealed strong swelling reduction by the addition of He. It was achieved by a drastic reduction in cavity sizes and an increased number density. This behaviour was observed all along the damage depth, upto the damage peak. 2) Cavity microstrusture was also studied in the dual beam high dose irradiated FeCr alloys, and the results were compared to bcc Fe. The analysis was performed at an intermediate depth 300 – 400 nm below the surface (to avoid injected interstitial effect and surface effects), corresponding to 128 dpa, 13 appm He/dpa. TEM study revealed that the addition of small quantities of Cr, as low as 3wt.%, is highly efficient in strongly reducing void swelling. It was achieved by a drastic reduction of cavity sizes. For instance, average cavity size in Fe3%Cr was 0.9 nm as opposed to 6.8 nm in bcc Fe. Furthermore, the variation of void swelling as a function of Cr content is non-monotonic, with alocal maxima around 9 - 10wt.%Cr. 3) Coupling of conventional TEM, STEM/EDS and APT analysis on low and intermediate dose irradiated FeCr alloys revealed the presence of Cr enriched zones on the habit plane of the dislocation loops. This is expected to be due to radiation induced segregation (RIS) of Cr close to the core of the loops. As the loop grows under irradiation, the segregated areas are probably prevented from re-dissolution by impurity elements such as C. When imaged by TEM using classical diffraction contrast imaging techniques, these enriched zones produce displacement fringe contrast on the loop plane. A quantitative estimate of this enrichment was deduced by STEM/EDSand APT. The Cr content in these areas was between 23 - 35 at.% measured by EDS and 22 ± 2 at.% obtained by APT, whichis well below the Cr content of the Cr-rich α’ phase.

Alliage FeCr

Gonflement

Sonde atomique tomographie (SAT)

Irradiation aux ions

Boucle de dislocation

FeCr alloys

Transmission electron microscopy (TEM)

Void swelling

Atom probe tomography (APT)

Ion irradiation

Dislocation loops

Desenvolvimento e validação de metodologia analítica para análise de aços por espectrometria de fluorescência de raios X por dispersão de energia (EDXRF)

Krummenauer, Alex

January 2017

O desenvolvimento e validação de métodos analíticos é um procedimento necessário quando um método não normalizado é utilizado por um laboratório de ensaios. A validação de métodos também é um requisito específico da norma ABNT NBR ISO/IEC 17025, que determina os requisitos gerais para a competência dos laboratórios de ensaio e calibração. O objetivo da validação é demonstrar que o método analítico, nas condições em que é executado, produz resultados com a exatidão requerida. O Laboratório de Corrosão, Proteção e Reciclagem de Materiais (LACOR), da UFRGS, tem o ensaio de determinação de metais por fluorescência de raios X, acreditado pelo CGCRE/INMETRO, conforme ABNT NBR ISO/IEC 17025. O ensaio é feito usando o método de espectrometria de fluorescência de raios X por dispersão de energia (EDXRF). Este método, contudo, não é normalizado e, portanto, o mesmo foi validado, neste trabalho de pesquisa, para atender a este requisito. A validação foi feita com base no documento orientativo DOQ-CGCRE-08 e no guia EURACHEM. Os parâmetros de validação, para o ensaio quantitativo por EDXRF, que foram calculados neste trabalho são: seletividade; limite de detecção (LD) e limite de quantificação (LQ); linearidade e faixa de trabalho; veracidade de medição (tendência, erro normalizado, Z-score e comparação com método de referência) e precisão (repetibilidade, precisão intermediária e reprodutibilidade). Além disso, foi desenvolvida uma metodologia de cálculo de incerteza de medição para o ensaio por EDXRF Os resultados obtidos neste estudo demonstram que o método EDXRF, usado na determinação de metais em aços, é um método não normalizado validado e compatível com os resultados obtidos com os métodos de referência: espectrometria de fluorescência de raios X por dispersão de comprimento de onda (WDXRF), fotométricos e espectrometria de absorção atômica (AAS). Inclusive, o WDXRF é um método de referência usado em muitas normas internacionais, que descrevem métodos de análise de aços por fluorescência de raios X, como ASTM E572 ou ASTM E1085. O estudo desenvolvido nesta dissertação permitiu que o LACOR mantivesse sua acreditação no ensaio de determinação de metais por fluorescência de raios X, na avaliação do CGCRE/INMETRO, no presente ano. Outros frutos deste trabalho foram a confecção das curvas de calibração do espectrômetro NITON XL3t GOLDD+ e a revisão do procedimento de ensaio, onde esses novos conhecimentos sobre a técnica EDXRF foram aplicados. Futuramente, este trabalho pode ser usado por outros pesquisadores para desenvolver estudos em outras matrizes metálicas, como cobre, alumínio, titânio ou níquel, e, também, em outras áreas de aplicação como jóias, reciclagem de materiais metálicos ou, até mesmo, para análise elementar de resíduos retidos em membranas de troca iônica. / The development and validation of analytical methods is a required procedure when a non-standard method is used by a testing laboratory. Method validation is also a specific requirement of the ABNT NBR ISO / IEC 17025, which determines the general requirements for the competence of testing and calibration laboratories. The purpose of validation is to demonstrate that the analytical method, under the conditions in which it is performed, produces results with the required accuracy. The Corrosion, Protection and Recycling Materials Laboratory (LACOR), at UFRGS, has the X-ray fluorescence metal analysis, accredited by CGCRE / INMETRO, according to ABNT NBR ISO / IEC 17025. The test is performed using Energy Dispersive X-Ray Fluorescence spectrometry, EDXRF method. This method, however, is not standardized; therefore, it was validated in this research to meet this requirement. The validation was based on the DOQ-CGCRE-08 document and the EURACHEM guide. The method performance calculated in this study for quantitative testing by EDXRF are: selectivity; limit of detection (LOD) and limit of quantification (LOQ); linearity and working range; trueness (bias, normalized error, Z-score and comparison with reference method) and precision (repeatability, intermediate precision and reproducibility). In addition, a measurement uncertainty calculation methodology was developed for the EDXRF testing The results obtained in this study demonstrate that the EDXRF method, used in the determination in the chemical analysis of steels, is a validated non-standard method and compatible with the results obtained with the reference methods: Wavelength Dispersive X-Ray Fluorescence spectrometry (WDXRF), photometric and atomic absorption spectrometry (AAS). In addition, WDXRF is a reference method used in many international standards, which describes analysis of steels by X-ray fluorescence spectrometry such ASTM E572 or ASTM E1085. The study developed in this dissertation allowed LACOR to maintain its accreditation in the test of metal by X-ray fluorescence analysis, in the CGCRE / INMETRO audit, this year. Other fruits of this work were the preparation of calibration curves of NITON XL3t GOLDD + spectrometer and complete revision of testing procedure, where this new knowledge about the EDXRF technique was applied. In the future, this work can be used by other researchers to develop studies in other base metals such as copper, aluminum, titanium or nickel, and also in other areas of application such as jewelry, recycling of metallic materials or even for analysis elemental residues retained in ion exchange membranes.

Aço

Fluorescência de raios X

Espectrometria

Incerteza de medição

Calibração

Analytical method validation

Calibration curve for spectrometer EDXRF

Spectrometric analysis of alloy steels

Comparison with reference method

Analysis of variance – ANOVA

Determinação de metais na bacia do rio Piracicaba usando as técnicas de Difusão em Filmes Finos por Gradiente de Concentração (DGT) e Fluorescência de Raios X Dispersiva em Energia (EDXRF) e por Reflexão Total (TXRF) / Determination of metals in Piracicaba river basin using Diffusive Gradients in Thin Films, and Energy Dispersive X-ray Fluorescence (EDXRF) and Total Reflection (TXRF) techniques

Almeida, Eduardo de

06 September 2011

O desenvolvimento e aplicação de métodos analíticos na avaliação das concentrações de metais nas frações dissolvida e lábil na bacia do rio Piracicaba são de relevante importância para o estudo do comportamento químico-ambiental desses metais e para seu monitoramento, devido ao impacto das atividades antropogênicas nessa bacia. A técnica de difusão em filmes finos por gradiente de concentração (DGT, do inglês diffusive gradients in thin-films), é uma promissora ferramenta analítica de amostragem, pois permite pré-concentração, análise temporal, remoção de interferentes, avaliação lábil e amostragem in situ. A quantificação dos metais pelas técnicas de fluorescência de raios X dispersiva em energia por reflexão total (TXRF, total reflection X-ray fluorescence analysis) para amostras líquidas e da fluorescência de raios X dispersiva em energia (EDXRF, energy dispersive X-ray fluorescence) para amostras sólidas, mostram-se interessantes devido ao caráter multielementar, simultâneo e não destrutivo da análise. Neste trabalho avaliou-se a DGT para a determinação de Cr, Mn, Co, Ni, Cu, Zn e Pb em águas naturais, utilizando-se como agente ligante a membrana de celulose P 81 e como meio difusivo, o papel cromatográfico 3 MM. Calcularam-se os fatores de eluição e coeficientes de difusão para estes metais. Estudou-se o efeito da substância húmica, em diferentes concentrações, no desempenho da DGT para esses metais, e os resultados foram comparados e concordantes com as frações livre e a ligada à matéria orgânica, calculadas pelo programa Visual MINTEQ. Compararam-se o agente ligante e o meio difusivo à base de celulose, utilizados neste trabalho, com os à base de gel de poliacrilamida, empregando-se o complexante Chelex-100. Avaliou-se a homogeneidade da retenção dos analitos e do grupo ligante fosfato sobre a superfície do agente ligante. Nesses ensaios utilizaram-se soluções sintéticas contendo os analitos em pH 5,5 e força iônica 0,05 mol L-1 (ajustados com NaNO3). As determinações foram realizadas por TXRF e EDXRF. Avaliaram-se os acoplamentos DGT-SRTXRF e da DGT-EDXRF para a determinação da fração lábil de Cr, Mn, Co, Ni, Cu, Zn e Pb em amostras de água da bacia do rio Piracicaba, através de imersão em laboratório e in situ. Esses resultados foram comparados com as concentrações dissolvidas desses metais determinados pela técnica de fluorescência de raios X por reflexão total com excitação por luz síncrotron (SRTXRF, synchrotron radiation total reflection X-ray analysis). Os valores de concentrações de Mn, Cu e Zn nas frações dissolvida e lábil foram comparados com os valores máximos estabelecidos pela legislação brasileira Nas amostragens in situ, nos cinco pontos de coleta, as concentrações de Mn dissolvido e lábil foram maiores que a concentração total máxima permitida para esse elemento. Os elmentos Cr, Co, Ni e Pb, nas amostras coletadas, apresentaram-se abaixo do limite de detecção das técnicas SRTXRF (dissolvido), DGT-SRTXRF (lábil) e DGT-EDXRF (lábil). Os limites de detecção para o Cr, Mn, Co, Ni, Cu, Zn e Pb foram de 2,2 a 10 \'mü\'g L-1 na SRTXRF, de 0,21 a 3,6 \'mü\'g L-1 e de 7,2 a 24 \'mü\'g L-1 na DGT-SRTXRF e DGT-EDXRF, respectivamente / Analytical methods evaluation for metal dissolved and labile fractions determination in Piracicaba river basin is notable for metal-behavior studies in this environment as well as their monitoring due to anthropogenic activities. The diffusive gradients in thin films (DGT) is a promising sampling technique because of its pre-concentration, time-integrated, matrix interference removal, labile evaluation and in situ analytical features. The analytical techniques total reflection X-ray fluorescence (TXRF) for liquid samples and energy dispersive X-ray fluorescence (EDXRF) for solid samples analysis are advantageous due to simultaneous, multielemental and non-destructive characteristics. In this work, it was evaluated the DGT technique for Cr, Mn, Co, Ni, Cu, Zn and Pb determination in freshwater, using P 81 cellulose membrane as bind agent and 3 MM chromatographic paper as diffusive layer. Elution factors and diffusion coefficients were calculated for these metals. The humic acids effect on DGT performance was assessed and compared to free and humic acid bound metal fractions estimated by Visual MINTEQ software, in which agreement results were found. The paper-based DGT and gel-based one with Chelex-100 as bind agent were compared. The metal retention and phosphate group homogenization on P 81 membrane bind agent surface was studied. For these tests it was utilized a synthetic solution these metals containing with pH and ionic strength adjust to 5.5 and 0.05 mol L-1 (NaNO3), respectively. It was used the TXRF and EDXRF techniques for these metal quantifications. The DGT-SRTXRF and DGT-EDXRF were assessed in order to determine Cr, Mn, Co, Ni, Cu, Zn and Pb labile fractions in batch and in situ in Piracicaba river basin freshwater samples. These results were compared to their dissolved fractions by synchrotron radiation total reflection X-ray analysis, SRTXRF. The dissolved and labile Mn, Cu and Zn concentrations levels were compared to maximum allowed set by Brazilian legislation. The dissolved and labile Mn concentrations were higher than the maximum allowed in all five samples in situ sampling. Cr, Co, Ni, and Pb concentrations were lower than their limits of detection for dissolved fractions (SRTXRF) and labile ones (DGT-SRTXRF and DGT-EDXRF). The detection limits for Cr, Mn, Co, Ni, Cu, Zn and Pb were from 2.2 to 10 \'mü\'g L-1 for SRTXRF, from 0.21 to 3.6 \'mü\'g L-1 and from 7.2 to 24 \'mü\'g L-1 for DGT-SRTXRF and DGT-EDXRF, respectively

Bacia do rio Piracicaba

Diffusive gradients in thin films

Dissolved and labile fractions

Energy dispersive X-ray fluorescence

Fração dissolvida e lábil

Metal

Metal

Piracicaba river basin

Total reflection X-ray fluorescence

Développement et applications de la tomographie chimique par spectroscopie EDX / Development and applications of chemical tomography by EDX spectroscopy

Lepinay, Kevin

27 November 2013

Cette thèse porte sur l’évaluation des techniques pour la tomographie chimique par STEM EDX : mise au point des procédures expérimentales, traitement des données, reconstruction des volumes, analyse de la qualité des résultats obtenus et évaluation de la complexité globale. Les performances très limitées de l’analyse STEM EDX font que peu d’études, jusqu’à aujourd’hui, se sont portées sur cette technique. Cependant, les avancées très notables procurées par les nouveaux détecteurs ‘SDD’ ainsi que les sources électroniques X-FEG haute brillance, rendant l’analyse STEM EDX 2D très rapide, ont relancé la possibilité de la tomographie chimique ; la technique demande toutefois à être mise au point et évaluée (performances et complexité). Nous avons travaillé sur un microscope Tecnai Osiris permettant d’acquérir des cartographies chimiques EDX de centaines de milliers de pixels avec une résolution de l’ordre du nanomètre en quelques minutes. Nous avons choisi de préparer par FIB des échantillons en forme de pointe et d’utiliser un porte-objet permettant une exploration angulaire de 180° sans ombrage. Puis, à l’aide d’échantillons modèles (billes de SiO2 dans une résine), nous avons évalué les déformations d’échantillon par l’irradiation du faisceau électronique. Ceci nous a permis de proposer une méthode pour limiter cet effet par déposition d’une couche de 20 nm de chrome. Des simulations d’images ont permis d’évaluer les logiciels et méthodes de reconstruction. La méthodologie de chaque étape d’une analyse de tomographie STEM EDX a ensuite été expliquée, et l’intérêt de la technique démontré grâce à la comparaison de l’analyse 2D et 3D d’un transistor FDSOI 28 nm. La qualité des reconstructions (rapport signal-sur-bruit, résolution spatiale) a été évaluée en fonction des paramètres expérimentaux à l’aide de simulations et d’expériences. Une résolution de 4 nm est démontrée grâce à l’analyse d’une mire et d’un transistor « gate all around ». Pour ce même transistor, la possibilité et l’intérêt d’analyse de défaillance à l’échelle nanométrique est prouvée. Une analyse d’un défaut de grille d’une SRAM ou de trous dans un pilier en cuivre permettent d’expliquer l’intérêt d’une combinaison d’un volume HAADF (morphologie et résolution < 4 nm) et du volume EDX (information chimique). La conclusion est que cette technique, qui reste encore à améliorer du point de vue de sa simplicité, montre déjà son utilité pour l’analyse et la mise au point des technologies avancées (nœud 20 nm et après). / This thesis focuses on the evaluation of the STEM EDX chemical tomography technique: development of experimental procedures, data processing and volumes reconstruction, quality analysis of the results and evaluation of the overall complexity. Until now, STEM EDX analysis performances were very limited, so only few studies about this technique have been realized. However, very significant progress procured by the new SDD detectors as well as by the high brightness electronic sources (X-FEG), making the STEM EDX 2D analysis very fast, have revived the possibility of the chemical tomography, although the technique has to be developed and evaluated (performance and complexity). We have worked on a Tecnai Osiris which acquires EDX chemical mapping of hundreds of thousands of pixels with resolution of one nanometer and in a few minutes. We chose to prepare the rod-shaped samples by FIB and use a sample holder allowing an angle of exploration of 180° without shadowing effects. Then, using model samples (SiO2 balls in resin), we evaluated the sample deformation due to the electron beam irradiation. This allowed us to propose a method to reduce this effect by depositing a 20 nm chromium layer. Images simulations were used to evaluate the software and the reconstruction methods. The methodology of each step of the STEM EDX tomography analysis is then explained and the technique interest is demonstrated by comparing the 2D and the 3D analysis of a transistor 28 nm FDSOI. The quality of the reconstructions (signal-to-noise ratio, spatial resolution) was evaluated, in function of experimental parameters, using simulations and experiments. A resolution of 4 nm is demonstrated through the analysis of a test pattern and a "gate all around” transistor. For the same transistor, the possibility and the interest of a failure analysis at the nanoscale is proven. Analyses of a SRAM gate fail or of the holes in a copper pillar explain the benefits of a combination between a HAADF volume (morphology and resolution < 4 nm) and an EDX volume (chemical information). To conclude, this technique, which still needs to be improved in terms of simplicity, is already showing its usefulness for the analysis and the development of advanced technologies (20nm node and beyond).

Matériau pour l'électronique

Semiconducteur

Tomographie chimique

Cartographie chimique

Imagerie 3D

Reconstruction 3D

Préparation de l'échantillon

Faisceau d'ions focalisés

Material for electronic device

SemiConductors

Chemical tomography

Chemical mapping

3D Imaging

3D Reconstruction

Sample preparation

FIB - Focused ion beam

620.110 287 072

Casting no shadow : overlapping soilscapes of European-Indigenous interaction in northern Sweden

Green, Heather F.

January 2012

The Sámi’s past activities have been documented historically from a European perspective, and more recently from an anthropological viewpoint, giving a generalised observation of the Sámi, during the study period of AD200-AD1800, as semi-nomadic hunter gatherers, with several theories suggesting that interaction with Europeans, through trade, led to the adoption of European activities by certain groups of the Sámi (Eiermann, 1923; Paine, 1957; Manker and Vorren, 1962; Bratrein, 1981; Mathiesen et al, 1981; Meriot, 1984). However, there is almost no information on the impact the Sámi had on the landscape, either before or after any adoption of European activities, and none investigating what cultural footprint or indicators would remain from Sámi or European occupation and/or activity within the typically podzolic soils of Northern Sweden. Consequently the thesis aims to contribute to the gap in knowledge through the formation of a podzol model identifying the links between anthropogenic activity and the alteration of podzol soils, and through the creation of soils based models which identify the cultural indicators associated with both Sámi and European activity; formed from the identification of cultural indicators retained within known Sámi and European sites. The methods used to obtain the information needed to achieve this were the pH and magnetic susceptibility from bulk soil samples and micromorphological and chemical analysis of thin section slides through the use of standard microscopy and X-ray fluorescence from a scanning electron microscope. The analysis revealed that the Sámi had an extremely low impact on the landscape, leaving hard to detect cultural indicators related to reindeer herding in the form of reindeer faecal material with corresponding phosphorous peaks in the thin section slides. The European footprint however, was markedly different and very visible even within the acidic soil environment. The European indicators were cultivation based and included phosphorous and aluminium peaks as well as a deepened, highly homogenised plaggen style anthropogenic topsoil rich in ‘added’ materials. An abandoned European site which visibly and chemically shows the formation of a secondary albic horizon within the anthropogenic topsoil also provides an insight into the delicate balance of cultivated soil in northern Sweden, whilst reinforcing the outputs identified in the podzol model. Due to the almost invisible Sámi footprint on the landscape, areas of overlap were impossible to identify however, there was no evidence of the adoption of European cultivation activities at any of the Sámi sites investigated. The only known area of interaction between the two cultures was an official market place which had been a Sámi winter settlement prior to its use as a market site. This site showed none of the reindeer based Sámi indicators or the cultivation based European indicators, but did contain pottery fragments which could be linked to trade or occupation. Overall, the thesis reinforces the low impact expected of the semi-nomadic Sámi and sheds light on the underlying podzolic processes influencing the anthropogenically modified soils of Northern Sweden. The podzol model is reinforced by several findings throughout the thesis and the soils based cultural indicator models for both Sámi and European activity have been successfully tested against independent entomological and palynological data and therefore provide reliable reference material for future studies.

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