Funcionalização de nanofibras de carbono em fase gasosa

Dissertação para obtenção do Grau de Mestre em Engenharia Química e Bioquímica

Lime-metakaolin mortars for historical buildings repair: study of the hardening reaction

International Conference Durable Structures: from construction to rehabilitation. Lisbon, LNEC, 31 May-1 June 2012

Efeito da temperatura no comportamento de caldas de injecção à base de cal hidráulica natural na presença de policarboxilato

Dissertação para obtenção do Grau de Mestre em Engenharia Civil – Perfil de Construção

Caracterização de caldas de cal hidráulica natural com metacaulino para consolidação de alvenarias antigas

Dissertação para obtenção do grau Mestre em Engenharia Civil – Perfil de Construção

Preparação e caracterização de VPO’s e sua aplicação na reacção de desidrogenação oxidativa do propano

Dissertação para obtenção do Grau de Mestre em Engenharia Química e Bioquímica

Caracterização da fase activa de catalisadores de Níquel suportados em α-Alumina, utilizando as reacções de desidrogenação e Hidrogenólise do Ciclohexano

A constante melhoria da eficiência energética dos processos industriais actuais é crucial para o contínuo desenvolvimento sustentável da espécie humana. O estudo das reacções de desidrogenação e hidrogenólise do ciclohexano, sobre catalisadores suportados, pode contribuir para um melhor entendimento acerca dos processos de formação e armazenamento de H2, uma das mais promissoras fontes de energia do futuro próximo, assim como para processos actuais tão importantes como a refinação ou o reforming catalítico do petróleo. Escolheu-se estudar as referidas reacções sobre catalisadores de Ni/α-Al2O3, preparados por três métodos distintos e submetidos a diferentes pré-tratamentos, de modo a realçar a dependência das reacções no que se refere às propriedades catalíticas. A maioria dos estudos anteriores sobre estas mesmas reacções recai sobre catalisadores com metais nobres, como a platina ou o paládio, bastante mais dispendiosos que o níquel para aplicações em larga escala. Os precursores e catalisadores previamente preparados foram submetidos à caracterização por diferentes técnicas: Termogravimetria (sob fluxo oxidativo e não oxidativo), Difracção de Raios-X e Quimissorção de H2. O estudo das reacções de desidrogenação e hidrogenólise do ciclohexano realizou-se recorrendo à análise por Cromatografia Gasosa, utilizando dois cromatógrafos distintos (HEWLETT PACKARD 5890 SERIES II, para GC, e 490 Micro GC Agilent, para Micro GC). Pôde concluir-se que o método de preparação dos catalisadores influenciou a actividade para ambas as reacções, assim como os diferentes pré-tratamentos aplicados. No geral, e na gama de temperaturas estudadas (entre 250 e 310º C), os catalisadores preparados pelo método com etilenodiamina evidenciaram maior actividade para a reacção de desidrogenação, sendo que os catalisadores preparados pelo método com etilenoglicol foram os mais activos para a reacção de hidrogenólise.

Nanocomposite polymer beads for cell detection

Circulating tumor cells (CTCs) may induce metastases when detached from the primary tumor. The numbers of these cells in blood offers a valuable prognostic indication. Magnetoresistive sensing is an attractive option for CTC counting. In this technique, cells are labeled with nancomposite polymer beads that provide the magnetic signal. Bead properties such as size and magnetic content must be optimized in order to be used as a detection tool in a magnetoresistive platform. Another important component of the platform is the magnet required for proper sensing. Both components are addressed in this work. Nanocomposite polymer beads were produced by nano-emulsion and membrane emulsification. Formulations of the oil phase comprising a mixture of aromatic monomers and iron oxide were employed. The effect of emulsifier (surfactant) concentration on bead size was studied. Formulations of polydimethilsiloxane (PDMS) with different viscosities were also prepared with nano-emulsion method resulting in colloidal beads. Polycaprolactone (PCL) beads were also synthetized by the membrane emulsification method. The beads were characterized by different techiques such as dynamic light scattering (DLS), thermogravimetric analysis (TGA) and scanning electron microscopy (SEM). Additionally, the magnet dimensions of the platform designed to detect CTCs were optimized through a COMSOL multiphysics simulation.

Jute/polypropylene composites: Effect of enzymatic modification on thermo-mechanical and dynamic mechanical properties

In this study, a high-performance composite was prepared from jute fabrics and polypropylene (PP). In order to improve the compatibility of the polar fibers and the non-polar matrix, alkyl gallates with different hydrophobic groups were enzymatically grafted onto jute fabric by laccase to increase the surface hydrophobicity of the fiber. The grafting products were characterized by FTIR. The results of contact angle and wetting time showed that the hydrophobicity of the jute fabrics was improved after the surface modification. The effect of the enzymatic graft modification on the properties of the jute/PP composites was evaluated. Results showed that after the modification, tensile and dynamic mechanical properties of composites improved, and water absorption and thickness swelling clearly decreased. However, tensile properties drastically decreased after a long period of water immersion. The thermal behavior of the composites was evaluated by TGA/DTG. The fiber-matrix morphology in the modified jute/PP composites was confirmed by SEM analysis of the tensile fractured specimens.

Thermal–mechanical behaviour of chitosan–cellulose derivative thermoreversible hydrogel films

CH, Chitosan; HPMC, (Hydroxypropyl)methyl cellulose; FT, Freeze-thaw; SC, Solvent casting; CH:HPMC (X:Y), pH Z, FT/SC, Chitosan and (hydroxypropyl)methyl cellulose hydrogel, at X and Y proportion (0-100), at Z pH (3.0-4.0) and prepared by freeze-thaw or solvent casting techniques; DSC, Differential scanning calorimetry; MDSC, Temperature modulated Differential scanning calorimetry; Tg, glass transition temperature; ΔH, enthalpy change; TGA, Thermogravimetric Analysis; TG, Thermogravimetry; DTG, Derivative or Differential thermogravimetry; σ, Tensile strength; ε, elongation at break; DMA, Dynamic mechanical analysis; X-Ray, X-radiation, FTIR-ATR, Attenuated total reflectance Fourier transform infrared spectroscopy; SEM, Scanning electron microscopy.

Erratum to: Thermal–mechanical behaviour of chitosan–cellulose derivative thermoreversible hydrogel films

CH, Chitosan; HPMC, (Hydroxypropyl)methyl cellulose; FT, Freeze-thaw; SC, Solvent casting; CH:HPMC (X:Y), pH Z, FT/SC, Chitosan and (hydroxypropyl)methyl cellulose hydrogel, at X and Y proportion (0-100), at Z pH (3.0-4.0) and prepared by freeze-thaw or solvent casting techniques; DSC, Differential scanning calorimetry; MDSC, Temperature modulated Differential scanning calorimetry; Tg, glass transition temperature; ΔH, enthalpy change; TGA, Thermogravimetric Analysis; TG, Thermogravimetry; DTG, Derivative or Differential thermogravimetry; σ, Tensile strength; ε, elongation at break; DMA, Dynamic mechanical analysis; X-Ray, X-radiation, FTIR-ATR, Attenuated total reflectance Fourier transform infrared spectroscopy; SEM, Scanning electron microscopy.

Development of magnetoelectric CoFe2O4/poly(vinylidene fluoride) microspheres

Magnetoelectric microspheres based on piezoelectric poly(vinylidene fluoride) (PVDF) and magnetrostrictive CoFe2O4 (CFO), a novel morphology for polymer-based ME material, have been developed by an electrospray process. The CFO nanoparticles content in the (3-7 μm diameter) microspheres reaches values up to 27 wt.%, despite their concentration in the starting solution reaching values up to 70 wt.%. Additionally, the inclusion of magnetostrictive nanoparticles into the polymer spheres has no relevant effect on the piezoelectric β-phase content (≈60%), crystallinity (40%) and the onset degradation temperature (460º-465ºC) of the polymer matrix. The multiferroic microspeheres show a maximum piezoelectric reponse |d33|≈30 pC.N-1, leading to a magnetoelectric response of Δ|d33|≈5 pC.N-1 obtained when a 220 mT DC magnetic field was applied. It is also shown that the interface between CFO nanoparticles and PVDF (from 0 to 55%) has a strong influence on the ME response of the microspheres. The simplicity and the scalability of the processing method suggest a large application potential of this novel magnetoelectric geometry in areas such as tissue engineering, sensors and actuators.

Study of the potential employment of Malvaceae Species in composites materials

The employ of vegetal fibers for textiles and composites represents a great potential in economic and social sustainable development. Some Malvaceae species are considered tropical cosmopolitans, such as from Sida genus. Several species of this genus provide excellent textile bast fibers, which are very similar in qualities to the jute textile fiber. The objective of the present study is present the physicochemical characterization of six Brazilian vegetal fibers: Sida rhombifolia L.; Sida carpinifolia L. f.; Sidastrum paniculatum (L.) Fryxell; Sida cordifolia L.; Malvastrum coromandelianum (L.) Gurck; Wissadula subpeltata (Kuntze) R.E.Fries. Respectively the two first species are from Brazilian Atlantic Forest biome and the four remaining from Brazilian Cerrado biome, despite of present in other regions of the planet. The stems of these species were retted in water at 37oC for 20 days. The fibers were tested in order to determine tensile rupture strength, tenacity, elongation, Young’s modulus, cross microscopic structure, Scanning Electronic Microscopy (SEM), regain, combustion, acid, alkali, organic solvent and cellulase effects, pH of the aqueous extract, Differential Scanning Calorimetry (DSC) and Thermogravimetric Analysis (TGA). The obtained values were compared with those from fibers of recognized applicability in the textile industry including hemp. The results are promising in terms of their employment in thermoset and thermoplastic medium resistance composites.

Effect of chemical and plasma DBD treatments on pseudostem plantain fiber properties

Las fibras del seudotallo de plátano (FSP) fueron modificadas mediante epiclorhidrina (EP), anhídrido acético (AA), y su combinación (AA_EP), y con plasma a tres descargas de barrera dieléctrica (DBD) 1, 3 y 6 kW min m-2. Las FSP tratadas y sin tratar fueron caracterizadas mediante espectroscopia infrarroja por la transformada de Fourier (FT-IR), termogravimetría (TGA), microscopía electrónica de barrido (SEM) y pruebas mecánicas de tensión y de humectabilidad. Los espectros FT-IR, las micrografías SEM, y el análisis TGA indicaron pérdidas de lignina, hemicelulosa, impurezas y ceras. Estos efectos en conjunto con las reacciones de grupos OH y -C-C-, con los tratamientos químicos y de plasma respectivamente, incrementaron la hidrofobicidad de las FSP tratadas. Los tratamientos químicos produjeron reacciones de esterificación, eterificación y entrecruzamiento de los grupos OH libres en las FSP, lo que hizo que mostraran mayor rigidez que las expuestas al plasma. Las micrografías SEM mostraron que las FSP expuestas al plasma quedaron con superficie más irregular y rugosa que la de las FSP tratadas químicamente. La humectabilidad de las fibras, medida mediante pruebas de ángulo de contacto, se redujo como consecuencia de ambos tratamientos, característica importante para un relleno en los materiales compuestos.

Análise termogravimétrica do óleo essencial de pimenta longa (Piper hispidinervium C. DC)

A pimenta longa (Piper hispidinervium C. DC.) é um arbusto originário da região amazônica, cujo óleo essencial é rico em safrol. O óleo essencial da pimenta longa é comercializado in natura, o que faz o processamento para a obtenção do safrol elemento fundamental de investigação científica e tecnológica. Uma importante etapa para a obtenção do safrol é a definição da estratégia da sua separação do óleo essencial a partir, por exemplo, da destilação. Neste caso, torna-se essencial o conhecimento de parâmetros termodinâmicos, tais como energia de ativação e calor latente de vaporização. Neste trabalho é utilizada a técnica termogravimétrica para a obtenção dos valores da energia de ativação e calor latente de vaporização do óleo essencial de P. hispidinervium. O processo de evaporação do óleo essencial obedece à cinética de ordem zero, resultando para a energia de ativação e calor latente de vaporização os valores 42,11 kJ.mol-1 e 43,73 kJ.mol-1, respectivamente.

Produção de bioplásticos a partir de agro-resíduos

Dissertação de mestrado integrado em Engenharia de Materiais