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Effects of Accelerated Aging on SiO₂-Treated Wood SamplesBeuthe, Callisto Ariadne 18 December 2023 (has links)
Wood is a viscoelastic composite material that has been historically prominent in the construction of buildings and continues to see widespread use. When used for exterior applications, wood is exposed to dynamic environmental conditions and can degrade if left untreated. Previous research by Lemaire-Paul et al. (2022) has proven that vacuum impregnation of the wood cell structure with a silica (SiO₂) nanoparticle colloid under a vacuum pressure of -90 kPa can enhance the viscoelastic properties, increase the density, and reduce the water uptake of white spruce wood. However, the behaviour of SiO₂-treated wood under different environmental conditions over time has yet to be fully explored. This research aims to examine the durability and performance of SiO₂-treated spruce wood samples subjected to accelerated aging conditions under high temperature and humidity as well as freeze-thaw cycling. Spruce wood samples were treated with 40% SiO₂ nanoparticle colloid under a vacuum pressure of -90 kPa. One set was placed in a hydrolytic aging chamber at 90°C and 80% RH. Another set was placed in a freeze-thaw cycling chamber that cycled from 25°C to -18°C and back at a rate of 6 cycles per day. The samples were removed at regular intervals and thermogravimetric analysis, dynamic mechanical analysis, tensiometry, X-Ray diffraction, and scanning electron microscopy were performed.
When compared to the results obtained from a set of non-treated samples, it was found that the SiO₂-treated samples exhibited lower water uptake values that stabilized over time, as well as a lower rate of decrease in peak cellulose degradation temperatures under hydrolytic aging and a slight increase in peak cellulose degradation temperature over time under freeze-thaw aging. The effects of both aging conditions on the viscoelastic properties of the samples were also found to be insignificant. Both types of samples under both types of aging also exhibited an increase in crystallinity over time. These results indicate that the durability and properties of wood can be improved through nano-SiO₂ impregnation as the material remains relatively stable when subjected to high temperature and humidity conditions as well as freeze-thaw cycling over time.
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Structural Characterization of Synthetic Polymers and Copolymers Using Multidimensional Mass Spectrometry Interfaced with Thermal Degradation, Liquid Chromatography and/or Ion Mobility SeparationAlawani, Nadrah January 2013 (has links)
No description available.
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Étude des COV issus de la dégradation thermique et oxydative des matériaux polymères / Study of VOC emitted by thermal and oxidative degradation of polymeric materialsLatappy, Hubert 10 July 2014 (has links)
Les matériaux polymères sont aujourd'hui très présents dans notre environnement et deviennent irremplaçables pour de nombreuses applications : emballage, textile, mobilier,... La connaissance du cycle de vie de ces matériaux, de la production à leur destruction, devient importante pour nos sociétés. Par exemple ces matériaux peuvent émettre des Composés Organiques Volatils qui sont souvent toxiques et leur impact sur le milieu doit être évalué. L’objectif de ce travail de thèse a été de développer une méthode au laboratoire pour identifier et quantifier ces émissions. La difficulté provient de la grande diversité des composés qui peuvent être émis. Par ailleurs la méthode nécessite une fréquence de mesure élevée (temps réel) souvent incompatible avec les techniques actuelles. Une solution analytique couplant un four et un spectromètre de masse haute résolution associé à une méthode d’ionisation chimique contrôlée a été développée. Celle-ci est basée sur un spectromètre FT-ICR compact à bas champ magnétique : BTrap. Les points forts de cette technique sont la très haute résolution en masse qui permet de mesurer la masse exacte des composés et la détection multi composés, simultanée sur toute la gamme de masse. L’ionisation chimique contrôlée permet l'ionisation douce et quantitative des molécules d’intérêt. Le transfert de proton à partir de l’ion H₃O⁺ (PTRMS) a montré son potentiel pour la détection des COV dans de nombreux domaines. Après une présentation du contexte et du besoin, le dispositif expérimental développé est détaillé. La validation de celui-ci pour l'analyse de gaz traces a été effectuée au LPGP, sur un système de dépollution par plasma froid. Les résultats de dégradation de l'acétaldéhyde en fonction des conditions de fonctionnement du réacteur sont présentés.L’ionisation par PTR conduit habituellement à la molécule protonée ce qui simplifie l’identification. Cependant des fragmentations peuvent être observées. L’utilisation d’un précurseur d’ionisation chimique plus lourd et moins réactif que H₃O⁺ pourrait minimiser ces phénomènes. L’utilisation du diflurobenzène protoné a été testée et comparée à celle de l’ion H₃O⁺. Pour cela, des études cinétiques ont été menées sur une série d’alcools connus pour fragmenter avec H₃O⁺, et confirment l'intérêt du nouveau précurseur.Le poly(méthacrylate de méthyle) (PMMA) est un matériau très répandu : plexiglass. Sa dégradation est a priori relativement simple puisqu’il s’agit très majoritairement d’une dépolymérisation, accompagnée de la formation de produits minoritaires. En conséquence, son étude nous a paru intéressante pour la mise au point et la validation de la méthode. La dégradation du PMMA a été étudiée sous atmosphère inerte, puis oxydante. Les résultats obtenus sont présentés : produits émis, bilan en masse, et apport du suivi en temps réel de la dégradation, montrant en particulier que les produits minoritaires sont émis après le monomère.Enfin une dernière partie de conclusion présente les perspectives pour cette nouvelle méthode. / Polymeric materials are now ubiquitous in our environment and become irreplaceable for many applications such as packaging, textile or furniture. Knowledge of the life cycle of these materials from production to destruction becomes important for our societies. For instance, plastics may release Volatile Organic Compounds: VOCs are often toxic and their impact on the environment must be evaluated. The aim of this thesis work is the development of a laboratory method for identification and quantification of these emissions. The difficulty arises from the wide variety of compounds being potentially emitted. Moreover the desired method requires a high measurement rate ("real time") often incompatible with existing techniques. An analytical device coupling a furnace and a high-resolution mass spectrometer associated with a controlled chemical ionization method has been developed. This device is based on a low magnetic field FT-ICR compact mass spectrometer. The strengths of this technique are (i) high mass resolution allowing exact mass measurements, (ii) recording of the whole mass range simultaneously, allowing detection of a large variety of compounds. Controlled chemical ionization allows soft and quantitative ionization of molecules of interest. Proton transfer from H₃O⁺ ion (PTRMS) has shown its potentialities for VOC detection in many areas. After presenting the background and need, the developed experimental device is described in detail.The validation of this instrument for trace gas analysis has been performed at LPGP, using a nonthermal plasma depollution device. The results of acetaldehyde degradation according to operating conditions in the discharge reactor are presented.PTR ionization usually leads to the protonated molecule, so that identification is simplified. However fragmentations are sometimes observed. Use of a chemical ionization precursor ion heavier and less reactive than H₃O⁺ may minimize these drawbacks. Protonated difluorobenzene was selected as a precursor and its reactivity was tested and compared with H3O+ reactivity. In this purpose, kinetic studies were performed on a series of alcohols known for their fragmentation behavior with H₃O⁺. The results confirm the interest of the new precursor.Polymethyl methacrylate (PMMA) is a widespread material: plexiglass. Its degradation process is relatively simple since it consists in predominant depolymerization, along with formation of minor products. Consequently, PMMA study appeared interesting for method development and validation. Thermal degradation of PMMA has been studied under inert, then oxidative atmosphere conditions. The presented results include identification of minor products and mass balance under different temperature conditions. Real-time monitoring of VOC emission showed time differences in emission peaks of MMA monomer and minor products, each of them being emitted slightly later than MMA. Finally, a conclusive part presents the perspectives opened for this new method.
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Suitability of cellulose ester derivatives in hot melt extrusion : thermal, rheological and thermodynamic approaches used in the characterization of cellulose ester derivatives for their suitability in pharmaceutical hot melt extrusionKarandikar, Hrushikesh M. January 2015 (has links)
Applications of Hot Melt Extrusion (HME) in pharmaceuticals have become increasingly popular over the years but nonetheless a few obstacles still remain before wide scale implementation. In many instances these improvements are related to both processing and product performance. It is observed that HME process optimisation is majorly focused on the active pharmaceutical ingredient's (API) properties. Characterising polymeric properties for their suitability in HME should be equally studied since the impact of excipients on both product and process performance is just as vital. In this work, two well-established cellulose ester derivatives: Hydroxy Propyl Methyl Cellulose Acetate Succinate (HPMCAS) and Hydroxy Propyl Methyl Cellulose Phthalate (HPMCP) are studied for their HME suitability. Their thermal, thermodynamic, rheological, thermo-chemical and degradation kinetic properties were evaluated with model plasticisers and APIs. It was found the thermal properties of HPMCP are severely compromised whereas HPMCAS is more stable in the processing zone of 150 to 200 °C. Thermodynamic properties revealed that both polymers share an important solubility parameter range (20-30 MPa P1/2P) where the majority of plasticisers and BCS class II APIs lie. Thus, greater miscibility/solubility can be expected. Further, the processability of these two polymers investigated by rheometric measurements showed HPMCAS possesses better flow properties than HPMCP because HPMCP forms a weak network of chain interactions at a molecular level. However, adding plasticisers such as PEG and TEC the flow properties of HPMCP can be tailored. The study also showed that plasticisers have a major influence on thermo-chemical and kinetic properties of polymers. For instance, PEG reduced polymer degradation with reversal in kinetic parameters whereas blends of CA produced detrimental effects and increased polymer degradation with reduction in onset degradation temperatures. Further, both polymers are observed to be chemically reactive with the APIs containing free -OH, -SOR2RN- and -NH2 groups. Finally, these properties prove that suitability of HPMCP is highly debated for HME and demands great care in use while that of HPMCAS is relatively better than HPMCP in many instances.
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Aerosols of Isocyanates, Amines and Anhydrides : Sampling and AnalysisDahlin, Jakob January 2007 (has links)
<p>This thesis presents methods for air sampling and determination of isocyanates, amines, aminoisocyanates and anhydrides. These organic compounds are generated during thermal degradation of polymers such as polyurethane (PUR) or epoxy.</p><p>Isocyanates, amines and anhydrides are airway irritants known to cause occupational asthma. Some of the compounds are listed as human carcinogens. Many workers are exposed.</p><p>Isocyanates and anhydrides are reactive and needs to be immediately derivatized during sampling. Methods have been developed for determination of airborne isocyanates, aminoisocyanates and anhydrides using di-n-butylamine (DBA) as reagent to form stabile urea derivatives or amide derivatives. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) enabled detection limits as low as 10 attomoles. A nitrogen-selective LC-detector enabled quantification of DBA-derivatives in reference solutions. </p><p>A novel sampler is presented. The sampler consists of a denuder in series with a three-stage cascade impactor and an end filter. The sampler made it possible to reveal the distribution of isocyanates between gas and different particle size fractions. During thermal degradation of PUR, isocyanates were associated to particle size fractions (<1 µm) that may penetrate to the lower airways. The distribution during 8 minutes changes noticeably. Aromatic isocyanates become associated to small particles (<1 µm). As a reference method, air-sampling was performed using an impinger filled with di-n-butylamine (DBA) in toluene, connected in series with a glass fiber filter. There was a good agreement between the denuder-impactor sampler and the reference method.</p>
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Aerosols of Isocyanates, Amines and Anhydrides : Sampling and AnalysisDahlin, Jakob January 2007 (has links)
This thesis presents methods for air sampling and determination of isocyanates, amines, aminoisocyanates and anhydrides. These organic compounds are generated during thermal degradation of polymers such as polyurethane (PUR) or epoxy. Isocyanates, amines and anhydrides are airway irritants known to cause occupational asthma. Some of the compounds are listed as human carcinogens. Many workers are exposed. Isocyanates and anhydrides are reactive and needs to be immediately derivatized during sampling. Methods have been developed for determination of airborne isocyanates, aminoisocyanates and anhydrides using di-n-butylamine (DBA) as reagent to form stabile urea derivatives or amide derivatives. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) enabled detection limits as low as 10 attomoles. A nitrogen-selective LC-detector enabled quantification of DBA-derivatives in reference solutions. A novel sampler is presented. The sampler consists of a denuder in series with a three-stage cascade impactor and an end filter. The sampler made it possible to reveal the distribution of isocyanates between gas and different particle size fractions. During thermal degradation of PUR, isocyanates were associated to particle size fractions (<1 µm) that may penetrate to the lower airways. The distribution during 8 minutes changes noticeably. Aromatic isocyanates become associated to small particles (<1 µm). As a reference method, air-sampling was performed using an impinger filled with di-n-butylamine (DBA) in toluene, connected in series with a glass fiber filter. There was a good agreement between the denuder-impactor sampler and the reference method.
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Caracterização microestrutural, morfológica e fotocatalítica de filmes finos de TiO2 obtidos por deposição química de organometálicos em fase vapor / Microstructural, morphologic and photocatalytic characterization of TiO2 thin films grown by metalorganic chemical vapor depositionMARCELLO, BIANCA A. 22 June 2016 (has links)
Submitted by Claudinei Pracidelli (cpracide@ipen.br) on 2016-06-22T12:14:50Z
No. of bitstreams: 0 / Made available in DSpace on 2016-06-22T12:14:50Z (GMT). No. of bitstreams: 0 / Dissertação (Mestrado em Tecnologia Nuclear) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP
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Estudo do processamento e da degradação térmica do poli (Hidroxibutirato) e suas blenadas com poli (Caprolactona)Duarte, Márcia Adriana Tomaz 10 March 2004 (has links)
Made available in DSpace on 2016-12-08T17:19:36Z (GMT). No. of bitstreams: 1
Marcia Adriana Tomaz.pdf: 5577367 bytes, checksum: c8f9d4ee034ae6bd90f26bb87ca29b3c (MD5)
Previous issue date: 2004-03-10 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Aiming the development of high-performance biodegradable polymeric materials, the properties and the processing behavior of poly(3-hydroxibutyrate), PHB, and their blends with poly(ε-caprolactone), PCL, have been investigated. Two sample of PHB obtaneid from sugarcane and characterized by infrared spectroscopy and X-ray diffraction, with molecular weights of 2,4 x 105 g.mol 1, PHB(A) and 3,0 x 105 g.mol 1,PHB(B), were used. Differential scanning calorimetry (DSC) showed that the sample were different regarding the crystallinity degree, 49% for the PHB(A) and 60% for the PHB(B), the glass transition temperature (Tg), 2,0oC (A) and 4,4 oC (B), and the melting temperature, 178oC (A) and 171oC (B). The samples have been processed through high-pressure compacting,solid state extrusion, and injection molding. Cylindrical billets of PHB prepared by compaction at 200 MPa showed high shore hardness, 71,3 (±0,9) D, and compression strength, 51,7 (± 1,0) MPa. The solid state processing was carried out by uniaxial compression, at temperature between the Tg and the melting point, through conical dies with extrusion draw ratio of 25 . It has produced extremely fragile materials with very high crystalline degrees (ca. 90%). Specimens of PHB(B) obtaneid by injection molding showed tensile strength, 24.53 (±0,77) MPa, and modulus ,3.82 (± 0,06) GPa, compatible to diverse type of applications. A small decrease on the tensile strength, 21,88 (± 0,40) MPa, and modulus, 2,17 (±0,25) GPa, and a high increase on the elongation at break, 86.7% (±20,0) were noted for PHB(B)/PCL (70/30) blends prepared by injection molding. DSC analyses of this blend showed two Tg´s, at 10,6oC for the PHB matrix, and at 62,9 oC for the PCL domains. The significant decrease on the Tg of PHB in the blend is possibly related to a partial miscibility of PCL in PHB. Thermal degradation studies of PHB were carried out by thermogravimetric methods, showing that the degradations occurs in only one step and that the presence of oxygen does not interfere in the degradation process. / Visando o desenvolvimento de materiais poliméricos biodegradáveis de alta performance estudaram-se as propriedades e o processamento de poli(3-hidroxibutirato), PHB, e de suas blendas com poli(ε-caprolactona), PCL. Foram utilizadas duas amostras de PHB, obtidas a partir de cana de açúcar,com massas molares de 2,4 x 105 g mol-1, PHB(A) e 3,0 x 105 g mol-1, PHB(B), cujas identidades foram confirmadas por espectroscopia na região do infravermelho. A calorimetria diferencial exploratória (DSC) mostrou que as amostras se diferenciam quanto ao grau de cristalinidade, 49% para o PHB(A) e 60% para o PHB(B), e em relação às temperaturas de transição vítrea, que variaram de 2 oC a 4,4oC, e de fusão, de 178 oC a 171 oC. Os materiais foram processados por compactação a alta pressão, extrusão em estado sólido e injeção em molde. O material compactado a 200 MPa apresentou elevada dureza, 71,30 (±0,9) unidades Shore D, e alta resistência à compressão, 51,7 (± 1,0) MPa. Observou-se que o processamento no estado sólido com razão de extrusão de 25 e em temperaturas até 175oC geram materiais extremamente frágeis, sendo que a caracterização por microscopia eletrônica de varredura mostra que o material não estava consolidado. A análise de DSC deste material revelou um alto grau de cristalinidade (93%), o que provavelmente está relacionado com a grande dificuldade de se obter PHB ou suas blendas com PCL por extrusão sólida. Corpos de prova de PHB(B) obtidos por injeção em molde apresentaram valores de resistência à tração, 24,53 (± 0,77) MPa,compatíveis com diversos tipos de aplicações, enquanto que as blendas de PHB(B)/PCL (70/30) injetadas apresentaram módulo de elasticidade igual a 2,17 (± 0,25) GPa e resistência à tração de 21,88 (± 0,40) MPa. A análise de DSC da blenda apresentou duas Tg´s, uma em -10,6 oC, da matriz de PHB, e outra a 62,9 oC, referente aos domínios de PCL. A diminuição acentuada na Tg do PHB(B) pode estar associada a uma provável solubilidade do PCL em PHB. Estudos da degradação térmica do PHB(B) por análise termogravimétrica, mostram que a degradação ocorre em apenas uma etapa e que a presença de oxigênio não interfere na degradação. Na análise da blenda de PHB(B)/PCL (70/30) é possível observar dois estágios de degradação provenientes do PHB(B) e do PCL e uma diminuição nas temperaturas de início de degradação do PCL e do PHB, quando comparadas com as dos materiais não processados.
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Caracterização microestrutural, morfológica e fotocatalítica de filmes finos de TiO2 obtidos por deposição química de organometálicos em fase vapor / Microstructural, morphologic and photocatalytic characterization of TiO2 thin films grown by metalorganic chemical vapor depositionMARCELLO, BIANCA A. 22 June 2016 (has links)
Submitted by Claudinei Pracidelli (cpracide@ipen.br) on 2016-06-22T12:14:50Z
No. of bitstreams: 0 / Made available in DSpace on 2016-06-22T12:14:50Z (GMT). No. of bitstreams: 0 / O dióxido de titânio possui diversas aplicações tecnológicas, desde pigmento em tintas, até revestimentos funcionais. É um material resistente à degradação eletroquímica e fotoquímica. Com o aumento da produção industrial de corantes, há um aumento significativo da produção de rejeitos, sendo necessário o desenvolvimento de novas técnicas de degradação, a fim de reduzir a formação de efluentes. Dentre essas técnicas encontram-se os processos oxidativos avançados (POAs), que se baseiam na formação de radicais hidroxila para a degradação dos compostos liberados nos efluentes. A fotocatálise heterogênea utiliza um material semicondutor ativado por radiação ultra-violeta a fim de produzir os radicais hidroxila. Apesar de existirem estudos relacionados à utilização do TiO2 como fotocatalisador, há poucos dados com relação à sua aplicação na forma de filme suportado. Este trabalho teve por objetivos crescer filmes de TiO2 sobre borossilicato, por meio da técnica de deposição química de organometálicos em fase vapor, nas temperaturas de 400 e 500ºC por até 60 minutos, bem como proceder à caracterização microestrutural, morfológica e fotocatalítica desses filmes. Anatase foi a fase identificada em todos os filmes. Os filmes crescidos a 400°C apresentaram estrutura densificada, enquanto que os filmes crescidos a 500°C apresentaram estrutura colunar bem definida. A fotodegradação foi avaliada por meio da degradação do corante alaranjado de metila nos valores de pH 2,00; 7,00 e 10,00. Os resultados de degradação do corante mostraram que a maior eficiência do processo de degradação ocorre em pH = 2. Nessa condição, os melhores resultados ocorrem com o filme crescido por 30 minutos a 400°C, que apresentou 65,3% de degradação. / Dissertação (Mestrado em Tecnologia Nuclear) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP
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Modelagem descritiva do comportamento do cimento Portland em ambiente de repositório para rejeitos radioativos / Descriptive modeling of Portland cement behavior in a repository environment for radioactive wasteFERREIRA, EDUARDO G.A. 31 January 2018 (has links)
Submitted by Pedro Silva Filho (pfsilva@ipen.br) on 2018-01-31T16:42:14Z
No. of bitstreams: 0 / Made available in DSpace on 2018-01-31T16:42:14Z (GMT). No. of bitstreams: 0 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A deposição de rejeitos radioativos em repositórios geológicos profundos vem sendo estudada nos últimos anos em diversos países. Materiais à base de cimento são utilizados nesses repositórios como material estrutural, matriz de imobilização de rejeitos ou material de preenchimento. Compreender o desempenho desse material é essencial para garantir a segurança da instalação durante o seu tempo de vida útil (de milhares a centenas de milhares de anos, dependendo do tipo de rejeito). Este trabalho objetiva modelar o comportamento em longo prazo do cimento Portland e estudar a influência de diversos fatores na hidratação e na evolução desse material. A modelagem descritiva abordou a hidratação do cimento nas condições ambientais esperadas no repositório e os efeitos desses fatores em propriedades mecânicas, mineralógicas e morfológicas do cimento. Os fatores ambientais considerados relevantes neste trabalho foram: alta temperatura e pressão, penetração de água subterrânea contendo íons quimicamente agressivos ao cimento e a presença do campo de radiação proveniente dos rejeitos. Ensaios acelerados de degradação também foram realizados para corroborar com o modelo descrito. Observou-se uma sinergia entre diversos fatores na degradação do cimento, como a influência da temperatura e da radiação em reações deletérias ao material. O resultado da modelagem apontou três principais possíveis causas de falha nas barreiras artificiais: a) a formação de um caminho preferencial; b) a perda de resistência e coesão do material; e c) o aumento na corrosão das estruturas metálicas. A descrição do modelo apresentada é a base para a modelagem matemática e a análise de segurança dos repositórios estudados no Brasil. / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP / CAPES:1231206
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