The aim of this work is to characterize physically and mineralogically six samples of natural and industrialized bentonites from Paraíba, Brazil, and to study its rheological properties to be used as a components of water based drilling fluids. Also it is intended to compare the evolution of the mineralogical composition and rheology of these clays after 40 years of exploitation. The natural bentonite clays were transformed into sodium bentonite by addition of concentrated Na2CO3 solution. The suspensions were prepared with 4.86% w/w to measure their rheological properties (apparent and plastic viscosities and water loss). The results showed that: i) the samples present typical mineralogical compositions of bentonites, but after four decades of exploitation, presents inferior quality and ii) among the clays samples, only one presented satisfactory rheological properties be used as a components of water based drilling fluids
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In this work, membranes of pure polyamide 6 (PA6) and hybrids with 1, 3, and 5% in weight of organophilic montmorillonite (OMMT) clay in the form of thin porous films are obtained by the phase inversion technique. The membranes are characterized by X‐ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), scanning electron microscopy (SEM), mercury intrusion porosimetry (MIP), contact angle (CA), and flow measurements (FM). Through X‐ray diffraction, it is revealed that the hybrid membranes with OMMT have an exfoliated and/or partially exfoliated structure. From FTIR and DSC analyses of hybrid membranes with OMMT, it is found that the spectra and the crystalline melting temperature remained practically unchanged compared to PA6 membrane. From the SEM, it is verified that the addition of the clay caused an increase in the quantity and uniformity of pores distribution in the surface and cross section of these membranes. By MIP, it is observed that the presence of clay in the membrane caused an increase in the average pore diameters. By the contact angle, it is verified that the membrane with clay had a higher value of contact angle for the distilled water when compared to the angle obtained with the synthetic oil. The water flux of the membrane with clay is higher than that obtained by the membrane of pure PA6, due its surface structure with larger pore diameters, favoring its permeability. The obtained hybrid membrane presented adequate porosity morphology for wastewater treatment.
Membranas poliméricas foram produzidas a partir de nanocompósitos de poliamida 6 e argila constituída de silicatos em camadas, utilizando a técnica de imersão-precipitação. A argila foi modificada organicamente com os sais quaternários de amônio, Dodigen e Cetremide. Foram obtidos nanocompósitos de poliamida 6 com argila sem tratamento (MMT) e com argila tratada (OMMT). Os nanocompósitos obtidos foram avaliados por DRX e MET, apresentando estrutura com predominância de lamelas de argila esfoliadas na matriz polimérica. As membranas produzidas pelo método de inversão de fases foram caracterizadas por DRX e MEV. A difração de raios X das membranas confirmou os resultados para os nanocompósitos anteriormente preparados. A superfície da matriz observada por MEV apresentou poros irregulares. Já para as membranas com os nanocompósitos observou-se maior quantidade e melhor distribuição dos poros, indicando que a presença da argila alterou a morfologia da membrana. As fotomicrografias das seções transversais dessas membranas mostraram uma estrutura morfológica assimétrica, constituída de uma pele, onde os poros são muito pequenos ou inexistentes, e uma camada porosa com poros de tamanho e distribuição uniformes.
A study was made of the influence of ionic strength (S) on the apparent (AV) and plastic (PV) viscosities and water loss (WL) of sodium bentonite suspension with polymers. Na-bentonite was dispersed in water (4.86% w/w) of different ionic strengths (S = 0.0, 0.015, 0.030 and 0.045 M) followed by the addition of polymer. Three polymer samples were studied, i.e., low viscosity carboxymethyl cellulose (CMC BV), polyanionic cellulose (PAC), and partially hydrolyzed polyacrylamide (HPAM). The results indicated that the presence of salts and increased salinity greatly influence the apparent and plastic viscosities and water loss of bentonite suspensions with polymer
The development of ceramic membranes with different geometries and compositions extends the possibilities of industrial applications, inducing advantages in terms of increased permeability, membrane area by volume module and chemical, thermal and mechanical resistance. The use of low-cost raw materials is a trend that has grown in scientific research. The aim of this work is to prepare membranes with hollow fiber geometry from alumina and residue of quartzite, by the technique of immersion precipitation in distilled water from a mixture of ceramic mass with a solution of polyethersulfone and, synthesized in temperatures of 1100 ºC to 1500 °C. The hollow fiber membranes were characterized by chemical analysis, X-ray diffraction, particle size distribution, scanning electron microscopy, apparent porosity, flexural strength and permeated water flow by the membranes. The results indicated that the sintering temperature has direct influence on the formation of the mullite phase, and the properties of apparent porosity and permeate flow. The higher the sintering temperature (1400-1500 ° C) increase the formation of the mullite phase, the lower the porosity, as well as the lower the permeate water flow in the membranes. However, there was increase in flexural strength in the hollow fiber membranes with high temperature.
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