Estudo da interface Ti-6Al-4V/TiO2 por microscopia eletrônica de varredura. / Study of the Ti-6Al-4V/TiO2 interface by scannig electron microscopy.

Bento, Carlos Alberto da Silva

10 August 2000

A liga Ti-6Al-4V tem sido usada com sucesso como biomaterial com aplicações nos campos da odontologia e ortopedia. As características da liga Ti-6Al-4V que a tornaram um material interessante são sua boa resistência à corrosão em meio biológico, combinada com um excelente grau de biocompatibilidade. Os efeitos biológicos a longo prazo dos íons metálicos resultantes da lenta lixiviação dos implantes de titânio não estão completamente entendidos. É conhecido que os íons titânio são considerados agentes químicos cancerígenos, os íons alumínio causam desordem neurológicas e os íons vanádio estão associados com distúrbios enzimáticos, entre outros problemas. O recobrimento das ligas de titânio por óxido de titânio (TiO2) pode atuar como uma barreira química para os íons lixiviados da superfície metálica da liga, além deste óxido ser um bom osseoindutor. O processo de aspersão térmica é amplamente empregado na aplicação de recobrimentos por óxidos. Uma vez que este processo acontece em altas temperaturas, onde partículas fundidas ou semi-fundidas aderem ao substrato, pode ocorrer difusão localizada. O objetivo deste estudo é caracterizar a interdifusão dos elementos de liga através das camadas superficiais do sistema Ti-6Al-4V/TiO2. Os recobrimentos de TiO2 foram preparados pela técnica de aspersão por plasma. A zona recoberta mostrou pequena porosidade distribuída por toda a camada e algumas trincas radiais. Adicionalmente, uma grande quantidade de buracos foi observada na região entre-camadas. Neste trabalho, a interface Ti-6Al-4V/TiO2 foi estudada por microscopia eletrônica de varredura. Os perfis de difusão do Ti, Al, V e O nas camadas superficiais da amostra recoberta foram obtidos por microanálise semi-quantitativa por energia dispersiva de raios-X. A caracterização química superficial do lado substrato depois da deposição de TiO2 mostrou a formação localizada de TiO. Na região entre-camadas foram observados os perfis de difusão característicos com forma de S para o Ti, V e O. O perfil de difusão do Al mostrou um pico na região entre-camadas indicando um acúmulo de Al2O3 nos buracos presentes nesta zona. O TiO2 foi identificado como o maior constituinte no lado revestimento. Pequenas quantidades de Al e V foram também detectadas homogeneamente distribuídas dentro do depósito. A presença do Al e V (metais tóxicos) na superfície externa do depósito indica que estes metais não competem com a oxidação da camada depositada indicando um efeito desmascarante da superfície da liga metálica pelo óxido superficial TiO2. / Ti-6Al-4V alloy has been used with some success as biomaterial with applications in the field of dentistry and orthopaedics. The features with make the Ti-6Al-4V alloy such an interesting material are its good corrosion resistance in the biological environment, combined with an excellent degree of biocompatibility. The long-term biological effects of the slowly leaching of metal ions from titanium implants are not completely understood. It is known that the titanium ions are considered chemical carcinogen, aluminium ions cause neurological disorders and, vanadium ions are associated with irreversible enzymatic disturbance, among other problems. Titanium oxide (TiO2) coatings on titanium alloys can act as a chemical barrier for ions leaching from the metallic alloy surface, beside the fact that this oxide is a very good osteoinductor. The thermal spray process is widely used to apply oxide coatings. Once this is a high temperature process where molten or semi-molten particles impinge upon the substrate, localized diffusion can occur. The aim of this study is characterize the inter-diffusion of the alloying elements through the surface layers of the system Ti-6Al-4V/TiO2. The TiO2 coatings were prepared by the plasma spray technique. The coated zone showed some porous distributed in all layer and a few radial cracks. Additionally, large amount of holes were observed in the interlayer region. In this work, the interface Ti-6Al-4V/TiO2 was studied by scanning electron microscopy. Diffusion profiles of Ti, Al, V and O in the surface layers of coated samples were measured by semi-quantitative energy dispersive X-ray microanalysis. Chemical surface characterization of the substrate side after the TiO2 deposition showed the localized formation of TiO. At the interlayer region was observed the characteristic S shape diffusion profiles for Ti, V and O. The Al diffusion profile showed a peak in the interlayer region indicating anaccumulation of Al2O3 into the holes present in this zone. TiO2 was identified as the major component in the coating side. Small amounts of Al and V were also detected homogeneously distributed inside the deposit. Presence of Al and V (toxic metals) on the external surface of the deposit indicated that these metals did not compete with the oxidation of the deposited layer indicating a non-masking effect of metallic alloy surface by the TiO2- surface oxide.

biomaterial

energy dispersive X-ray

espectrometria dispersica de raio-X

microscopia eletrônica de varredura

revestimento plasma spray

scannig electron microscopy

thermal spray plasm

Ti-6Al-4V

TiO2

High-resolution microstructural and microanalysis studies to better understand the thermodynamics and diffusion kinetics in an advanced Ni-based superalloy RR1000

Chen, Yiqiang

January 2015

The commercial polycrystalline superalloy RR1000 developed for turbine disc applications contains a large number of alloying elements. This complex alloy chemistry is required in order to produce appropriate microstructures and the required mechanical properties, such that the most important strengthener γʹ displays complex alloy chemistry. The broad aim of this project is to develop an approach to measuring the composition of γʹ precipitates at a broad range of length scales from nanometres to hundreds of nanometres, and subsequently develop a better understanding of the role of thermodynamics and diffusion kinetics on γʹ phase separation and precipitate growth. A solution of the absorption-corrected EDX spectroscopy to spherical particles was developed in our work, therefore enabling the quantitative analysis of precipitates' composition using an absorption-corrected Cliff-Lorimer approach. By performing this quantification, size-dependent precipitate compositional variations were obtained. Examination of this quantitative approach was compared to thermodynamic calculations of primary γ' precipitates possessing equilibrium compositions. Given the development of semi-quantitative compositional measurements for spherical γʹ precipitates and that cooling is one of the most common and critical regimes in physical metallurgy of Ni-based superalloys, this approach was then applied to study the local compositional variations that are induced in γ' precipitates when the alloy RR1000 undergoes different cooling rates. These measured compositions have been compared to detailed thermodynamic calculations and provide new experimental evidence of the importance of the dominant role of aluminium antisite diffusion in determining the low-temperature growth kinetics of fine-scale γ' precipitates. We have applied a similar analysis approach to study the compositional variations of γʹ cores within the class of secondary precipitates upon cyclic coarsening and reversal coarsening. It was shown that supersaturated Co in secondary γʹ exhibits an overall trend towards the equilibrium but Co content can significantly increase as γʹ coarsens. It was demonstrated that the limited elemental diffusivity in γ and γʹ compared to the observed coarsening rate in the coarsening regime results in the long-lasting Co supersaturation in γʹ and builds up elemental enhancements or depletions. These inhomogeneous elemental distributions produce compressive elastic constraints on large-scale secondary γʹ, therefore inducing morphological instability of these γʹ and causing the reversal coarsening. These results enable us to better understand the role that both thermodynamics and limited diffusion kinetics plays in controlling the complex microstructures of γ' precipitates.

620

Efeito da radioterapia sobre as propriedades mecânicas, químicas e morfológicas do esmalte e da dentina de dentes permanentes - Estudo in vitro / Effect of radiotherapy on the mechanical, chemical and morphological property of the enamel and of the dentine of permanent teeth - In vitro study

Gonçalves, Ligia Maria Napolitano

14 March 2012

O presente estudo teve como objetivo avaliar, in vitro, os efeitos da radiação com cobalto-60 nas propriedades mecânicas, morfológicas e químicas do esmalte e da dentina de dentes permanentes através da: 1- microdureza longitudinal; 2- microscopia eletrônica de varredura (MEV); e 3- espectroscopia de energia dispersiva de raios X (EDX). A microdureza do esmalte e da dentina (n=12 hemissecções vestibulares) foi avaliada em três profundidades (superficial, média e profunda), antes e a cada 10 Gy de irradiação, até uma dose cumulativa de 60 Gy. A morfologia do esmalte e da dentina foi avaliada por meio de MEV (n=8 hemissecções), em 2 hemissecções vestibulares irradiadas com dose cumulativa de 30 Gy, 2 hemissecções vestibulares irradiadas com dose cumulativa de 60 Gy e 4 hemissecções palatinas não irradiadas. A composição química do esmalte e da dentina foi avaliada por meio de EDX (n=4 hemissecções), utilizando-se as mesmas hemissecções previamente submetidas à MEV (com dose cumulativa de 60 Gy de irradiação, e nas hemissecções não irradiadas). Os dados foram analisados quanto à sua distribuição e submetidos à Análise de Variância a dois critérios. Para a diferenciação das médias, empregou-se o teste de Fisher. O nível de significância adotado foi de 5%. Com relação à microdureza no esmalte, pôde-se observar que houve diferença estatisticamente significante entre os grupos (p < 0,05). A microdureza no esmalte não irradiado não apresentou diferença estatisticamente significante em comparação com a do esmalte após irradiação com doses de 40, 50 e 60 Gy (p > 0,05), e apresentou-se maior que os valores de microdureza nas doses de 10, 20 e 30 Gy (p < 0,05). Com relação à microdureza nas diferentes profundidades pôde-se observar diferença significante (p < 0,05) entre elas, observando-se no esmalte superficial seus maiores valores. Na análise morfológica do esmalte observou-se que os espécimes irradiados apresentaram alterações crescentes, em função do aumento da dose de radiação, em comparação ao esmalte não irradiado. A porção interprismática tornou-se mais evidente após as doses de 30 e 60 Gy. Em relação à microdureza da dentina, pôde-se observar que houve diferença significante entre os grupos (p < 0,05). A microdureza na dentina não irradiada não apresentou diferença estatisticamente significante em comparação com a microdureza na dose de 40 Gy (p > 0,05) e apresentou valores superiores aos observados nas doses de 10, 20, 30, 50 e 60 Gy (p < 0,05). Em relação à microdureza nas diferentes profundidades avaliadas pôde-se observar diferença significante (p < 0,05) entre elas, sendo que a dentina média apresentou seus maiores valores. Na análise morfológica da dentina observou-se a presença de fendas na estrutura dentinária, túbulos dentinários colabados/destruídos e fragmentação das fibras colágenas nas doses de 30 e 60 Gy, sendo as alterações mais intensas com aumento da dose de irradiação, para todas as regiões analisadas, em comparação à dentina não irradiada. Na análise química do esmalte e da dentina irradiados observou-se discreto aumento de oxigênio (O) e diminuição de fósforo (P) e cálcio (Ca), em comparação aos espécimes não irradiados. Os resultados permitiram concluir que a radioterapia não influenciou a microdureza do esmalte, como um todo, entretanto, quando analisou-se nas diferentes profundidades do esmalte, verificou-se um aumento da microdureza na região superficial. Na dentina, a radioterapia ocasionou diminuição da microdureza após praticamente todas as doses de radiação, em comparação à dentina não irradiada, sendo que na região da dentina média observaram-se seus menores dos valores. As alterações morfológicas das estruturas do esmalte e da dentina foram crescentes com o aumento das doses de irradiação observando-se a porção interprismática mais evidente, presença de fendas e túbulos dentinários colabados/destruídos e fragmentação progressiva das fibras colágenas. Quimicamente, após a irradiação, tanto no esmalte como na dentina, observouse um discreto aumento na porcentagem de oxigênio e redução nas porcentagens de fósforo e cálcio. / The present study had as objective to evaluate, in vitro, the effect of the radiation of 60 Cobalt (Co 60) in the mechanical, morphological and chemical properties of the enamel and of the dentine of permanent teeth by means of: 1- longitudinal microhardness; 2- scanning electron microscopy (SEM); and 3; energy dispersive X-ray spectroscopy (EDX). The microhardness of the enamel and of the dentine (n = 12 vestibular hemisections) was evaluated in three depths (superficial, medium and deep), before and at each 10 Gy of irradiation, until a total cumulative dose of 60 Gy. The morphology of the enamel and of the dentine was evaluated by means of a SEM (n = 8 hemisections), in 2 irradiated vestibular hemisections with total cumulative dose of 30 Gy, 2 irradiated vestibular hemisections with total cumulative dose of 60 Gy and 4 not irradiated palatine hemisections (control). The chemical composition of the enamel and of the dentine was evaluated by means of EDX (n = 4 hemisections), using the same hemisections previously submitted to SEM (with cumulative dose of 60 Gy of irradiation, and in the not irradiated hemisections). The data were analyzed about their distribution and submitted to the Analysis of Variance at two criteria. For the differentiation of the averages, the test of Fisher was used. The level of significance adopted was of 5%. About the longitudinal microhardness in the enamel, it was possible to be observed that there was no statistically significant difference between the groups (p < 0,05). The microhardness in the not irradiated enamel was similar to the enamel after the irradiation with doses of 40, 50 and 60 Gy (p > 0,05) and higher than the microhardness values in the doses of 10, 20, e 30 Gy (p < 0,05). About the microhardness in the different depths it was observed significant difference (p < 0,05) between them, being observed in the superficial enamel the greatest values of microhardness. In the morphological analysis of the enamel it was observed that the irradiated specimens presented growing alterations, due to the increase of the radiation dose, comparing to the not irradiated enamel. There was no difficulty in observing the prisms and the crystals after the irradiation, however the interprismatic portion became more evident after the radiation doses of 30 and 60 Gy. About the longitudinal microhardness of the dentine, it could be observed that there was significant difference between the groups (p < 0,05). The microhardness of the not irradiated dentine was not statistically significant compared to the microhardness in the dose of 40 Gy (p > 0,05) and it presented higher values to the observed ones in the doses of 10, 20, 30, 50 and 60 Gy (p < 0,05). About the relation to the microhardness in the different evaluated depths it was possible to observe significant difference (p < 0,05) among them, being that the medium dentine presented the highest values of microhardness. In the morphological analysis of the dentine it was observed the presence of cracks in the dentine structure, collapsed/destroyed dentine tubules and fragmentation of the collagen fibers in the doses of 30 and 60 Gy, being the alterations more intense with the increase of the dose of irradiation, for all the analyzed regions, comparing to the not irradiated dentine. In the chemical analysis of the irradiated enamel and the dentine it was observed the slight increase of oxygen (O) and decrease of phosphorus (P) and Calcium (Ca), comparing to the not irradiated specimens. The result allowed to be concluded that the radiotherapy occasioned the decrease of the microhardness of the enamel after the doses from 10 to 30 Gy, but in the following doses there was an increase of the microhardness, which became similar to the not irradiated enamel, being that in the superficial region it was observed the biggest increase of the microhardness. In the dentin, the radiotherapy caused decrease of the microhardness after practically all doses of radiation, comparing to the not irradiated dentine, being that in the region of the medium dentine the lowest values of microhardness were observed. The morphological alterations of the enamel and of the dentine structure were growing with the increase of the radiation doses observing the more evident interprismatic portion, presence of cracks and collapsed/destroyed dentine tubules and progressive fragmentation of collagen fibers. Chemically, after the irradiation, not only in the enamel but also in the dentin, it was observed a slight increase of percentage of the oxygen and decrease in the percentages of phosphorus and calcium.

60 Cobalt

Cobalto-60

Dentes permanentes

Energy-dispersive X-ray spectroscopy

Microdureza

Microhardness

Microscopia eletrônica de varredura

Permanent teeth

Radioterapia

Radiotherapy

Scanning electron microscopy

Efeito da radioterapia sobre as propriedades mecânicas, químicas e morfológicas do esmalte e da dentina de dentes permanentes - Estudo in vitro / Effect of radiotherapy on the mechanical, chemical and morphological property of the enamel and of the dentine of permanent teeth - In vitro study

Ligia Maria Napolitano Gonçalves

14 March 2012

O presente estudo teve como objetivo avaliar, in vitro, os efeitos da radiação com cobalto-60 nas propriedades mecânicas, morfológicas e químicas do esmalte e da dentina de dentes permanentes através da: 1- microdureza longitudinal; 2- microscopia eletrônica de varredura (MEV); e 3- espectroscopia de energia dispersiva de raios X (EDX). A microdureza do esmalte e da dentina (n=12 hemissecções vestibulares) foi avaliada em três profundidades (superficial, média e profunda), antes e a cada 10 Gy de irradiação, até uma dose cumulativa de 60 Gy. A morfologia do esmalte e da dentina foi avaliada por meio de MEV (n=8 hemissecções), em 2 hemissecções vestibulares irradiadas com dose cumulativa de 30 Gy, 2 hemissecções vestibulares irradiadas com dose cumulativa de 60 Gy e 4 hemissecções palatinas não irradiadas. A composição química do esmalte e da dentina foi avaliada por meio de EDX (n=4 hemissecções), utilizando-se as mesmas hemissecções previamente submetidas à MEV (com dose cumulativa de 60 Gy de irradiação, e nas hemissecções não irradiadas). Os dados foram analisados quanto à sua distribuição e submetidos à Análise de Variância a dois critérios. Para a diferenciação das médias, empregou-se o teste de Fisher. O nível de significância adotado foi de 5%. Com relação à microdureza no esmalte, pôde-se observar que houve diferença estatisticamente significante entre os grupos (p < 0,05). A microdureza no esmalte não irradiado não apresentou diferença estatisticamente significante em comparação com a do esmalte após irradiação com doses de 40, 50 e 60 Gy (p > 0,05), e apresentou-se maior que os valores de microdureza nas doses de 10, 20 e 30 Gy (p < 0,05). Com relação à microdureza nas diferentes profundidades pôde-se observar diferença significante (p < 0,05) entre elas, observando-se no esmalte superficial seus maiores valores. Na análise morfológica do esmalte observou-se que os espécimes irradiados apresentaram alterações crescentes, em função do aumento da dose de radiação, em comparação ao esmalte não irradiado. A porção interprismática tornou-se mais evidente após as doses de 30 e 60 Gy. Em relação à microdureza da dentina, pôde-se observar que houve diferença significante entre os grupos (p < 0,05). A microdureza na dentina não irradiada não apresentou diferença estatisticamente significante em comparação com a microdureza na dose de 40 Gy (p > 0,05) e apresentou valores superiores aos observados nas doses de 10, 20, 30, 50 e 60 Gy (p < 0,05). Em relação à microdureza nas diferentes profundidades avaliadas pôde-se observar diferença significante (p < 0,05) entre elas, sendo que a dentina média apresentou seus maiores valores. Na análise morfológica da dentina observou-se a presença de fendas na estrutura dentinária, túbulos dentinários colabados/destruídos e fragmentação das fibras colágenas nas doses de 30 e 60 Gy, sendo as alterações mais intensas com aumento da dose de irradiação, para todas as regiões analisadas, em comparação à dentina não irradiada. Na análise química do esmalte e da dentina irradiados observou-se discreto aumento de oxigênio (O) e diminuição de fósforo (P) e cálcio (Ca), em comparação aos espécimes não irradiados. Os resultados permitiram concluir que a radioterapia não influenciou a microdureza do esmalte, como um todo, entretanto, quando analisou-se nas diferentes profundidades do esmalte, verificou-se um aumento da microdureza na região superficial. Na dentina, a radioterapia ocasionou diminuição da microdureza após praticamente todas as doses de radiação, em comparação à dentina não irradiada, sendo que na região da dentina média observaram-se seus menores dos valores. As alterações morfológicas das estruturas do esmalte e da dentina foram crescentes com o aumento das doses de irradiação observando-se a porção interprismática mais evidente, presença de fendas e túbulos dentinários colabados/destruídos e fragmentação progressiva das fibras colágenas. Quimicamente, após a irradiação, tanto no esmalte como na dentina, observouse um discreto aumento na porcentagem de oxigênio e redução nas porcentagens de fósforo e cálcio. / The present study had as objective to evaluate, in vitro, the effect of the radiation of 60 Cobalt (Co 60) in the mechanical, morphological and chemical properties of the enamel and of the dentine of permanent teeth by means of: 1- longitudinal microhardness; 2- scanning electron microscopy (SEM); and 3; energy dispersive X-ray spectroscopy (EDX). The microhardness of the enamel and of the dentine (n = 12 vestibular hemisections) was evaluated in three depths (superficial, medium and deep), before and at each 10 Gy of irradiation, until a total cumulative dose of 60 Gy. The morphology of the enamel and of the dentine was evaluated by means of a SEM (n = 8 hemisections), in 2 irradiated vestibular hemisections with total cumulative dose of 30 Gy, 2 irradiated vestibular hemisections with total cumulative dose of 60 Gy and 4 not irradiated palatine hemisections (control). The chemical composition of the enamel and of the dentine was evaluated by means of EDX (n = 4 hemisections), using the same hemisections previously submitted to SEM (with cumulative dose of 60 Gy of irradiation, and in the not irradiated hemisections). The data were analyzed about their distribution and submitted to the Analysis of Variance at two criteria. For the differentiation of the averages, the test of Fisher was used. The level of significance adopted was of 5%. About the longitudinal microhardness in the enamel, it was possible to be observed that there was no statistically significant difference between the groups (p < 0,05). The microhardness in the not irradiated enamel was similar to the enamel after the irradiation with doses of 40, 50 and 60 Gy (p > 0,05) and higher than the microhardness values in the doses of 10, 20, e 30 Gy (p < 0,05). About the microhardness in the different depths it was observed significant difference (p < 0,05) between them, being observed in the superficial enamel the greatest values of microhardness. In the morphological analysis of the enamel it was observed that the irradiated specimens presented growing alterations, due to the increase of the radiation dose, comparing to the not irradiated enamel. There was no difficulty in observing the prisms and the crystals after the irradiation, however the interprismatic portion became more evident after the radiation doses of 30 and 60 Gy. About the longitudinal microhardness of the dentine, it could be observed that there was significant difference between the groups (p < 0,05). The microhardness of the not irradiated dentine was not statistically significant compared to the microhardness in the dose of 40 Gy (p > 0,05) and it presented higher values to the observed ones in the doses of 10, 20, 30, 50 and 60 Gy (p < 0,05). About the relation to the microhardness in the different evaluated depths it was possible to observe significant difference (p < 0,05) among them, being that the medium dentine presented the highest values of microhardness. In the morphological analysis of the dentine it was observed the presence of cracks in the dentine structure, collapsed/destroyed dentine tubules and fragmentation of the collagen fibers in the doses of 30 and 60 Gy, being the alterations more intense with the increase of the dose of irradiation, for all the analyzed regions, comparing to the not irradiated dentine. In the chemical analysis of the irradiated enamel and the dentine it was observed the slight increase of oxygen (O) and decrease of phosphorus (P) and Calcium (Ca), comparing to the not irradiated specimens. The result allowed to be concluded that the radiotherapy occasioned the decrease of the microhardness of the enamel after the doses from 10 to 30 Gy, but in the following doses there was an increase of the microhardness, which became similar to the not irradiated enamel, being that in the superficial region it was observed the biggest increase of the microhardness. In the dentin, the radiotherapy caused decrease of the microhardness after practically all doses of radiation, comparing to the not irradiated dentine, being that in the region of the medium dentine the lowest values of microhardness were observed. The morphological alterations of the enamel and of the dentine structure were growing with the increase of the radiation doses observing the more evident interprismatic portion, presence of cracks and collapsed/destroyed dentine tubules and progressive fragmentation of collagen fibers. Chemically, after the irradiation, not only in the enamel but also in the dentin, it was observed a slight increase of percentage of the oxygen and decrease in the percentages of phosphorus and calcium.

Cobalto-60

Dentes permanentes

Microdureza

Microscopia eletrônica de varredura

Radioterapia

60 Cobalt

Energy-dispersive X-ray spectroscopy

Microhardness

Permanent teeth

Radiotherapy

Scanning electron microscopy

Microanálise de superfície e caracterização química de cimentos endodônticos / Surface microanalysis and chemical characterization of endodontic sealers

Sampaio, Felipe Cavalcanti

15 January 2013

Submitted by Luciana Ferreira (lucgeral@gmail.com) on 2018-06-12T11:22:07Z No. of bitstreams: 2 Dissertação - Felipe Cavalcanti Sampaio - 2013.pdf: 1683727 bytes, checksum: 6cab873178ad2e097fe434f4aa8fca34 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2018-06-12T12:21:36Z (GMT) No. of bitstreams: 2 Dissertação - Felipe Cavalcanti Sampaio - 2013.pdf: 1683727 bytes, checksum: 6cab873178ad2e097fe434f4aa8fca34 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2018-06-12T12:21:36Z (GMT). No. of bitstreams: 2 Dissertação - Felipe Cavalcanti Sampaio - 2013.pdf: 1683727 bytes, checksum: 6cab873178ad2e097fe434f4aa8fca34 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2013-01-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Purpose: to assess the surface and evaluate the chemical composition of root canal filling materials by scanning electron microscopy (SEM) and energy dispersive X-ray analysis (EDX). Methods: eighteen polyethylene standard tubes were filled with the tested materials: Sealapex®, Sealer 26®, MTA Fillapex®, Pulp Canal Sealer®, Endofill® and AH Plus®. After 48 hours at 37°C and 95% relative humidity, the samples were surface-sputtered with gold, led to SEM and the images analyzed at 5,000X magnification. Then, the elements distribution and chemical composition were determined by EDX. The results were evaluated qualitatively (SEM images and elements distribution maps) and quantitatively (weight percentage). Results: the surface analysis revealed that the sealers presented different regularities, with an uniform distribution of elements, with particles of similar sizes and variable shapes in EDX microanalysis. Calcium oxide and hydroxide based sealers (Sealapex® and Sealer 26®) presented calcium peaks of 53.58wt.% and 65.00wt.%, respectively. MTA Fillapex® presented 30.58wt.% of calcium and high amounts of silicon (31.02 weight%) and bismuth (27.38 weight%). Zinc oxide and eugenol based sealers, Pulp Canal Sealer® and Endofill®, showed zinc quantities of 67.74wt% and 63.16wt.%, respectively. AH Plus® had higher amount of zirconium (64.24wt.%). The materials presented elements incompatible with the composition described by the manufacturer. Conclusions: the root canal sealers’ surfaces showed different. The elements presented uniform distribution, with particles of similar sizes and variable shapes. Chemical elements were found in the root canal sealers not described by the manufacturers. / Objetivo: analisar a superfície e avaliar a composição química de materiais obturadores do canal radicular por meio de microscopia eletrônica de varredura (MEV) e espectroscopia de dispersão de raios-X (EDX). Material e métodos: dezoito tubos de polietileno padronizados foram preenchidos com os materiais avaliados (n=3): Sealapex®, Sealer 26®, MTA Fillapex®, Pulp Canal Sealer®, Endofill® e AH Plus®. Após 48 horas a 37°C e umidade relativa de 95%, as amostras foram metalizadas com ouro, conduzidas ao MEV e as imagens da superfície analisadas em um aumento de 5.000X. A seguir, a distribuição dos elementos e composição química foram determinadas por meio de EDX. Os resultados foram avaliados qualitativamente (imagens do MEV e mapas de distribuição de elementos) e quantitativamente (porcentagem em peso). Resultados: a análise da superfície revelou que os cimentos apresentaram diferentes regularidades em imagens por MEV. As partículas apresentaram-se com distribuição uniforme dos elementos, com tamanhos similares e formas variáveis em microanálises por EDX. Os cimentos à base de óxido ou hidróxido de cálcio (Sealapex® e Sealer 26®) apresentaram quantidades de cálcio de 53,58%p (porcentagem de peso atômico) e 65,00%p, respectivamente, em microanálises por EDX. O cimento MTA Fillapex® apresentou 30,58%p de cálcio e elevadas quantidades de silício (31,02%p) e bismuto (27,38%p). Os cimentos contendo óxido de zinco e eugenol, Pulp Canal Sealer® e Endofill®, apresentaram zinco em quantidades de 67,74%p e 63,16%p, respectivamente. O AH Plus® apresentou maior quantidade de zircônia (64,24%p). Foram encontrados elementos não compatíveis com a composição descrita pelo fabricante. Conclusões: as superfícies dos cimentos endodônticos mostraram diferentes regularidades. As partículas apresentaram distribuição uniforme, com tamanhos similares, porém com formas variadas. Foram encontrados nos cimentos endodônticos elementos químicos que não foram descritos pelos fabricantes.

Microscopia eletrônica de varredura

Espectroscopia de dispersão de raios-X

Propriedades químicas

Materiais obturadores

Energy-dispersive X-ray analysis

Scanning electron microscopy

Chemical properties

Root canal filling materials

ODONTOLOGIA::ENDODONTIA

Estudo da interface Ti-6Al-4V/TiO2 por microscopia eletrônica de varredura. / Study of the Ti-6Al-4V/TiO2 interface by scannig electron microscopy.

Carlos Alberto da Silva Bento

10 August 2000

A liga Ti-6Al-4V tem sido usada com sucesso como biomaterial com aplicações nos campos da odontologia e ortopedia. As características da liga Ti-6Al-4V que a tornaram um material interessante são sua boa resistência à corrosão em meio biológico, combinada com um excelente grau de biocompatibilidade. Os efeitos biológicos a longo prazo dos íons metálicos resultantes da lenta lixiviação dos implantes de titânio não estão completamente entendidos. É conhecido que os íons titânio são considerados agentes químicos cancerígenos, os íons alumínio causam desordem neurológicas e os íons vanádio estão associados com distúrbios enzimáticos, entre outros problemas. O recobrimento das ligas de titânio por óxido de titânio (TiO2) pode atuar como uma barreira química para os íons lixiviados da superfície metálica da liga, além deste óxido ser um bom osseoindutor. O processo de aspersão térmica é amplamente empregado na aplicação de recobrimentos por óxidos. Uma vez que este processo acontece em altas temperaturas, onde partículas fundidas ou semi-fundidas aderem ao substrato, pode ocorrer difusão localizada. O objetivo deste estudo é caracterizar a interdifusão dos elementos de liga através das camadas superficiais do sistema Ti-6Al-4V/TiO2. Os recobrimentos de TiO2 foram preparados pela técnica de aspersão por plasma. A zona recoberta mostrou pequena porosidade distribuída por toda a camada e algumas trincas radiais. Adicionalmente, uma grande quantidade de buracos foi observada na região entre-camadas. Neste trabalho, a interface Ti-6Al-4V/TiO2 foi estudada por microscopia eletrônica de varredura. Os perfis de difusão do Ti, Al, V e O nas camadas superficiais da amostra recoberta foram obtidos por microanálise semi-quantitativa por energia dispersiva de raios-X. A caracterização química superficial do lado substrato depois da deposição de TiO2 mostrou a formação localizada de TiO. Na região entre-camadas foram observados os perfis de difusão característicos com forma de S para o Ti, V e O. O perfil de difusão do Al mostrou um pico na região entre-camadas indicando um acúmulo de Al2O3 nos buracos presentes nesta zona. O TiO2 foi identificado como o maior constituinte no lado revestimento. Pequenas quantidades de Al e V foram também detectadas homogeneamente distribuídas dentro do depósito. A presença do Al e V (metais tóxicos) na superfície externa do depósito indica que estes metais não competem com a oxidação da camada depositada indicando um efeito desmascarante da superfície da liga metálica pelo óxido superficial TiO2. / Ti-6Al-4V alloy has been used with some success as biomaterial with applications in the field of dentistry and orthopaedics. The features with make the Ti-6Al-4V alloy such an interesting material are its good corrosion resistance in the biological environment, combined with an excellent degree of biocompatibility. The long-term biological effects of the slowly leaching of metal ions from titanium implants are not completely understood. It is known that the titanium ions are considered chemical carcinogen, aluminium ions cause neurological disorders and, vanadium ions are associated with irreversible enzymatic disturbance, among other problems. Titanium oxide (TiO2) coatings on titanium alloys can act as a chemical barrier for ions leaching from the metallic alloy surface, beside the fact that this oxide is a very good osteoinductor. The thermal spray process is widely used to apply oxide coatings. Once this is a high temperature process where molten or semi-molten particles impinge upon the substrate, localized diffusion can occur. The aim of this study is characterize the inter-diffusion of the alloying elements through the surface layers of the system Ti-6Al-4V/TiO2. The TiO2 coatings were prepared by the plasma spray technique. The coated zone showed some porous distributed in all layer and a few radial cracks. Additionally, large amount of holes were observed in the interlayer region. In this work, the interface Ti-6Al-4V/TiO2 was studied by scanning electron microscopy. Diffusion profiles of Ti, Al, V and O in the surface layers of coated samples were measured by semi-quantitative energy dispersive X-ray microanalysis. Chemical surface characterization of the substrate side after the TiO2 deposition showed the localized formation of TiO. At the interlayer region was observed the characteristic S shape diffusion profiles for Ti, V and O. The Al diffusion profile showed a peak in the interlayer region indicating anaccumulation of Al2O3 into the holes present in this zone. TiO2 was identified as the major component in the coating side. Small amounts of Al and V were also detected homogeneously distributed inside the deposit. Presence of Al and V (toxic metals) on the external surface of the deposit indicated that these metals did not compete with the oxidation of the deposited layer indicating a non-masking effect of metallic alloy surface by the TiO2- surface oxide.

biomaterial

espectrometria dispersica de raio-X

microscopia eletrônica de varredura

revestimento plasma spray

Ti-6Al-4V

TiO2

energy dispersive X-ray

scannig electron microscopy

thermal spray plasm

The Performance and Service Life Prediction of High Performance Concrete in Sulfate and Acidic Environments

Zhang, Shuo

01 September 2015

Concrete substructures are often subjected to environmental deterioration, such as sulfate and acid attack, which leads to severe damage and causes structure degradation or even failure. In order to improve the durability of concrete, the High Performance Concrete (HPC) has become widely used by partially replacing cement with pozzolanic materials. However, HPC degradation mechanisms in sulfate and acidic environments are not completely understood. It is therefore important to evaluate the performance of the HPC in such conditions and predict concrete service life by establishing degradation models. This study began with a review of available environmental data in the State of Florida. A total of seven bridges have been inspected. Concrete cores were taken from these bridge piles and were subjected for microstructural analysis using Scanning Electron Microscope (SEM). Ettringite is found to be the products of sulfate attack in sulfate and acidic condition. In order to quantitatively analyze concrete deterioration level, an image processing program is designed using Matlab to obtain quantitative data. Crack percentage (Acrack/Asurface) is used to evaluate concrete deterioration. Thereafter, correlation analysis was performed to find the correlation between five related variables and concrete deterioration. Environmental sulfate concentration and bridge age were found to be positively correlated, while environmental pH level was found to be negatively correlated. Besides environmental conditions, concrete property factor was also included in the equation. It was derived from laboratory testing data. Experimental tests were carried out implementing accelerated expansion test under controlled environment. Specimens of eight different mix designs were prepared. The effect of pozzolanic replacement rate was taken into consideration in the empirical equation. And the empirical equation was validated with existing bridges. Results show that the proposed equations compared well with field test results with a maximum deviation of ± 20%. Two examples showing how to use the proposed equations are provided to guide the practical implementation. In conclusion, the proposed approach of relating microcracks to deterioration is a better method than existing diffusion and sorption models since sulfate attack cause cracking in concrete. Imaging technique provided in this study can also be used to quantitatively analyze concrete samples.

Concrete

Sulfate Attack

Acid Attack

Scanning Electron Microscopic

Energy-Dispersive X-Ray Spectroscopy

Microstructures

Cracks

Accelerated Test

Image Processing

Regression Analysis

Civil Engineering

Structural Engineering

ATMOSPHERIC PARTICLE IDENTIFICATION AND CHARACTERIZATION OF FIELD COLLECTED SAMPLES

Kevin Alan Jankowski (15339097)

22 April 2023

<p>  </p> <p>Atmospheric particles originate from all over the globe with wildly different sources such as sea spray aerosols of the ocean, mineral dust from deserts, biogenic emissions from forests, anthropogenic emissions of urban and industrial areas, volcanic eruptions, and many more. All of these particles can then be transported during which aging can occur where the external and internal chemical composition of particles and drastically be altered in which their physiochemical properties change or new particles as a whole are formed. Understanding what can cause this aging and correctly identifying how these particles change is vital for assessing climate in local areas. </p> <p>Chapter 3 focuses on dry intrusion (DI) and non-DI periods where vertical mixing of air occurs and allows for long range transport of particles. DI periods introduces populations of aged particles from far away sources into local regions. Identification and chemical characterization is performed for both of these periods to highlight the changes the DI period introduces in regards to particle morphology, chemical composition and lifetime. Analysis was performed via computer controlled scanning electron microscopy (CCSEM) for external information of the particles and scanning transmission x-ray microscopy (STXM) was used for internal information. The combination of these two techniques allows for a complete and thorough understanding of the particles during the two periods. </p> <p>Chapter 4 covers the first experiment done on a newly constructed cryogenic cooling cart which was created in the hopes to identify individual ice nucleating events of particles <em>in situ</em> when mimicking real world atmospheric conditions through temperature and humidity control. </p>

Atmospheric aerosols

Aerosols

Mixing States

X-ray Diffraction Studies of Amorphous Materials

Palma, Joseph John

January 2013

This thesis presents a study on two types of X-ray diffraction methodologies applied to the characterization of amorphous materials. The purpose of this study was to assess the feasibility of measuring the diffractive spectrum of amorphous materials by Energy-Dispersive X-ray Diffraction (EDXRD) utilizing Cadmium Zinc Telluride detectors. The total scattering intensity (coherent plus incoherent scatter) spectra precisely measured by high-energy Wide-Angle X-ray Scattering (WAXS) were compared to the EDXRD spectra to determine the level of agreement between the two techniques. The EDXRD spectra were constructed by applying a spectra fusing technique which combined the EDXRD spectra collected at different scattering angles rendering a continuous total scattering spectrum. The spectra fusing technique extended the momentum transfer range of the observed scattered spectrum beyond the limitations of the X-ray source and CZT detection efficiencies. Agreement between the WAXS and fused EDXRD spectra was achieved. In addition, this thesis presents the atomic pair correlation functions and coordination numbers of the first coordination shell for four hydrogen peroxide solutions of varying mass concentrations using Empirical Potential Structural Refinement (EPSR). The results are compared to the state-of-the art ad initio quantum mechanical charge field molecular dynamics (QMCF MD) model of the hydrogen peroxide in solution to support the model's predictions on why hydrogen peroxide is stable in water. The EPSR results using the coherent scattering intensity calculated from the WAXS data set predicts a hydration shell of 6.4 molecules of water surrounding hydrogen peroxide. The results also indicate that hydrogen peroxide is more likely to behave as a proton donor than acceptor. These findings are in agreement with QMCF MD model of aqueous hydrogen peroxide. / Physics

Physics

Physics, Condensed Matter

Empirical Potential Structure Refinement

Energy-dispersive X-ray Diffraction

Material Characterization

Wide-angle X-ray Diffraction

X-ray Physics

Quantitative analysis of core-shell nanoparticle catalysts by scanning transmission electron microscopy

Haibo, E.

January 2013

This thesis concerns the application of aberration corrected scanning transmission electron microscopy (STEM) to the quantitative analysis of industrial Pd-Pt core-shell catalyst nanoparticles. High angle annular dark field imaging (HAADF), an incoherent imaging mode, is used to determine particle size distribution and particle morphology of various particle designs with differing amounts of Pt coverage. The limitations to imaging, discrete tomography and spectral analysis imposed by the sample’s sensitivity to the beam are also explored. Since scattered intensity in HAADF is strongly dependent on both thickness and composition, determining the three dimensional structure of a particle and its bimetallic composition in each atomic column requires further analysis. A quantitative method was developed to interpret single images, obtained from commercially available microscopes, by analysis of the cross sections of HAADF scattering from individual atomic columns. This technique uses thorough detector calibrations and full dynamical simulations in order to allow comparison between experimentally measured cross section to simulated ones and is shown to be robust to many experimental parameters. Potential difficulties in its applications are discussed. The cross section approach is tested on model materials before applying it to the identification of column compositions of core-shell nanoparticles. Energy dispersive X-ray analysis is then used to provide compositional sensitivity. The potential sources of error are discussed and steps towards optimisation of experimental parameters presented. Finally, a combination of HAADF cross section analysis and EDX spectrum imaging is used to investigate the core-shell nanoparticles and the results are correlated to findings regarding structure and catalyst activity from other techniques. The results show that analysis by cross section combined with EDX spectrum mapping shows great promise in elucidating the atom-by-atom composition of individual columns in a core-shell nanoparticle. However, there is a clear need for further investigation to solve the thickness / composition dualism.

620.5