Lisiane Navarro de Lima Santana scite author profile

O Estado da Paraíba possui jazidas de bentonitas utilizadas comercialmente em uma vasta gama de setores tecnológicos. No entanto, esses jazimentos estão se exaurindo após dezenas de anos de exploração. Assim, este trabalho tem por objetivo a caracterização físico-mineralógica de bentonitas recentemente descobertas no município de Cubati, PB. As amostras estudadas foram secas a 60 ºC e caracterizadas por meio de fluorescência de raios X, picnometria de He, determinação da distribuição de tamanho de partículas, difração de raios X, análise térmica diferencial e gravimétrica e microscopia eletrônica de varredura. Os resultados evidenciaram que as amostras são bentonitas policatiônicas, apresentando teores de MgO, CaO e K2O semelhantes aos de outras bentonitas sul-americanas e que são constituídas por argilomineral esmectítico e por quartzo e caulinita. As amostras apresentaram frações de partículas abaixo a 2 μm variando entre 31 e 41%, estando, no entanto, em elevado estado de aglomeração.

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Modification of bentonites with nonionic surfactants for use in organic-based drilling fluids

Silva

Sousa

Menezes

et al. 2014

Applied Clay Science

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A Review on Chitosan’s Uses as Biomaterial: Tissue Engineering, Drug Delivery Systems and Cancer Treatment

et al. 2020

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Chitosan, derived from chitin, is a biopolymer consisting of arbitrarily distributed β-(1-4)-linked D-glucosamine and N-acetyl-D-glucosamine that exhibits outstanding properties— biocompatibility, biodegradability, non-toxicity, antibacterial activity, the capacity to form films, and chelating of metal ions. Most of these peculiar properties are attributed to the presence of free protonable amino groups along the chitosan backbone, which also gives it solubility in acidic conditions. Moreover, this biopolymer can also be physically modified, thereby presenting a variety of forms to be developed. Consequently, this polysaccharide is used in various fields, such as tissue engineering, drug delivery systems, and cancer treatment. In this sense, this review aims to gather the state-of-the-art concerning this polysaccharide when used as a biomaterial, providing information about its characteristics, chemical modifications, and applications. We present the most relevant and new information about this polysaccharide-based biomaterial’s applications in distinct fields and also the ability of chitosan and its various derivatives to selectively permeate through the cancer cell membranes and exhibit anticancer activity, and the possibility of adding several therapeutic metal ions as a strategy to improve the therapeutic potential of this polymer.

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Use of statistical design to study the influence of CMC on the rheological properties of bentonite dispersions for water-based drilling fluids

Menezes

Marques

Campos

et al. 2010

Applied Clay Science

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Optimization of wastes content in ceramic tiles using statistical design of mixture experiments

Menezes

Neto

Santana

et al. 2008

Journal of the European Ceramic Society

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Mineralogical and dielectric properties of mullite and cordierite ceramics produced using wastes

Silva

Almeida

Gonçalves

et al. 2019

Ceramics International

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Utilization of kaolin processing waste for the production of porous ceramic bodies

et al. 2008

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The kaolin processing industry generates large amounts of waste in producing countries such as Brazil. The aim of this study was to characterize kaolin processing waste and evaluate its suitability as an alternative ceramic raw material for the production of porous technical ceramic bodies. The waste material was physically and chemically characterized and its thermal behaviour is described. Several formulations were prepared and sintered at different temperatures. The sintered samples were characterized to determine their porosity, water absorption, firing shrinkage and mechanical strength. Fired samples were microstructurally analysed by X-ray diffraction and scanning electron microscopy. The results indicated that the waste consisted of quartz, kaolinite, and mica, and that ceramic formulations containing up to 66% of waste can be used for the production of ceramics with porosities higher than 40% and strength of about 70 MPa.

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Influência das variáveis de processo na obtenção de argilas organofílicas

et al. 2013

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ResumoAs argilas bentoníticas, usadas como agente viscosificante e nanocompósitos, não podem ser usadas sem um prévio tratamento orgânico para que suas superfícies se tornem hidrofóbicas e possam ser dispersas em meios orgânicos. Estas argilas depois de tratadas são chamadas de argilas organofílicas, e são geralmente obtidas através da adição, em meio aquoso, de um agente organofilizante, geralmente um tensoativo, iônico, anfótero ou não iônico. O processo de organofilização, composto de várias etapas, nem sempre garante a obtenção de argilas organofílicas de boa qualidade, sendo importante destacar as variáveis de processo bem como a escolha das matérias-primas a serem utilizadas. Propõe-se então um estudo detalhado das variáveis envolvidas no processo de dispersão das argilas bentoníticas, e também no processo de organofilização procurando relacionar as viscosidades aparente e plástica das dispersões argilosas com a eficiência do processo de organofilização. O processo de organofilização será controlado pelos resultados de difração de raios X e termogravimetria. As variáveis de processo tanto envolvidas na dispersão das argilas quanto na organofilização, do ponto de vista da caracterização, não têm grande influência na incorporação do tensoativo às argilas bentoníticas, sendo influentes o tipo de argila e tensoativo e a presença de sódio como agente defloculante, o que é muito importante de vista industrial pela melhor operacionalidade das condições de processamento. Palavras-chave: argilas organofílicas, tensoativos, variáveis de processos. Abstract The bentonitic clays, used as a thickening agent and nanocomposites, cannot be used without a prior treatment for their organic surfaces to become hydrophobic and be dispersed in organic media. These clays after treatment are called organoclays and are usually obtained through the addition of an organophilization agent, usually an ionic, amphoteric or nonionic surfactant. The process of organophilization is composed of several steps, and not always ensures the provision of good quality organoclays; it is important to highlight the process variables and the choice of raw materials to be used. It is here proposed a detailed study of the process variables involved in the dispersion

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