Adriana Regina Martin scite author profile

e beneficiamento da fibra e termina com a industrialização e confecção de artesanato [1,2,[4][5][6] .A planta do sisal é originária da península de Yucatã, no México, tendo recebido este nome de uma erva nativa chamada zizal-xiu [4] . Em 1834, as primeiras mudas foram levadas para o sul da Flórida (EUA) e a partir de 1892 começaram a ser cultivadas na África. No Brasil, as primeiras mudas de Agave sisalana Perrine foram introduzidas na Bahia em 1903, sendo esta a única espécie do gênero Agave cultivada comercialmente no país [5][6][7] . As fibras são extraídas das folhas, que possuem de 8 a 10 cm de largura e de 150 a 200 cm de comprimento. Da folha se obtém de 3 a 5% do seu peso em fibra. Os 95 a 97% restantes constituem os chamados resíduos do beneficiamento, que são utilizados como adubo orgânico, ração animal e pela indús-tria farmacêutica. As fibras são constituídas de fibrilas ou IntroduçãoO sisal é a principal fibra dura produzida no mundo, correspondendo a aproximadamente 70% da produção comercial de todas as fibras desse tipo. No Brasil, o cultivo do sisal se concentra na região Nordeste, sendo os estados da Bahia, Paraíba e Rio Grande do Norte os principais produtores, com 93,5, 3,5 e 3,0%, respectivamente, da produção nacional [1][2][3] . A agaveicultura se concentra em áreas de pequenos produtores, com predomínio do trabalho familiar. O sisal, além de constituir fonte de renda e emprego para um grande contingente de trabalhadores, é um importante agente de fixação do homem à região semi-árida nordestina, sendo, em algumas dessas regiões, a única alternativa de cultivo com resultados econômicos satisfatórios. A fibra do sisal, beneficiada ou industrializada, representa cerca de 80 milhões de dólares em divisas para o Brasil, além de gerar mais de meio milhão de empregos diretos e indiretos por Resumo: Nos últimos anos, o interesse pelo uso de fibras naturais em materiais compósitos poliméricos tem aumentado significativamente. Neste trabalho foram investigadas as propriedades, químicas, físicas, térmicas e estruturais da fibra de sisal brasileira da variedade Agave sisalana. Nosso objetivo foi avaliar a qualidade e o desempenho desta fibra para aplicações industriais. Foram realizados ensaios de resistência à tração, análise da composição química, difração de raios X, e estudos por microscopia eletrônica de varredura (MEV) ao longo do comprimento da fibra. A fibra de sisal brasileira apresentou propriedades mecânicas e térmicas dentro da faixa relatada na literatura, mostrando-se adequada para ser utilizada em materiais compósitos poliméricos. Palavras-chave: Fibras naturais, compósitos, composição química, caracterização. Chemical and Structural Characterization of Sisal Fibers from Agave sisalana VarietyAbstract: In recent years, the interest in the use of natural fibers in polymeric composite materials has increased significantly. In this work were investigated the structural, thermal, chemical, and physical properties of Brazilian sisal fiber from Agave sisalana variety. Our aim was to evaluate th...

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Drying by spray drying in the food industry: Micro-encapsulation, process parameters and main carriers used

Costa¹,

Machado²,

Martin³

et al. 2015

Afr. J. Food Sci.

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The process of spray drying consists of the transformation of a product in fluid form to the solid state in the form of powder. This is done through the dispersion of droplets from the product inside a chamber, in contact with hot air. In this process, substances known as carriers or encapsulating agents can be added, aiming at facilitating or even allowing the drying of certain products. The objective of this review was to approach the most important technological aspects of the drying by technique for the food industry, as well as showing the potential of using a spray dryer in the micro-encapsulation of bioactive substances.

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Structure of heat-treated Nylon 6 and 6.6 fibers. II. Recrystallization mechanism

Simal

Martin

1998

J. Appl. Polym. Sci.

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The present work compared the recrystallization process of Nylon 6 with Nylon 6.6 fibers. For such a study, the fibers were submitted to different annealing conditions (slack and restrained conditions) in a wide range of temperatures. For the structural analysis, several techniques were applied, and among them, differential scanning calorimetry (DSC) was demonstrated to be a very important tool. Nylon 6 and 6.6 fibers responded differently to the applied annealings, indicating different recrystallization mechanisms. The Nylon 6 fiber presented the formation of new and very small crystallites in their interfibrillar regions for the annealings performed above 120ЊC independently of the annealing condition. In addition to their improvement in size and perfection as the annealing temperature increases, their presence favored a general recrystallization in a preferred direction, that is, of the fiber axis. The recrystallization process of the Nylon 6.6 was commanded by the disorientation process associated to the release of the hydrogen bonds. The DSC thermograms revealed two crystalline forms, that is, of the same type but with different degrees of size and perfection. At temperatures below the T g , the less perfect crystallites are converted into more perfect ones, while at temperatures above the T g , the intense movement of the chain segments favored a reversal in this process, that is, the more perfect ones are converted again to the less perfect form.

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Functionalization of sisal fibers and high‐density polyethylene by cold plasma treatment

Martin

Manolache

Dénès

et al. 2002

J of Applied Polymer Sci

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ABSTRACT:Chopped sisal fibers and finely powdered high-density polyethylene were surface functionalized using dichlorosilane (DS) under radio frequency (RF)-plasma conditions and characterized by electron spectroscopy for chemical analysis (ESCA) and fluorescence labeling techniques. A high-capacity (10 L), rotating, 13.56 MHz, electrodeless plasma installation, specially designed to allow the uniform surface modification of powdery and particulate matter of irregular shape, was used. A three-factor fractional experimental design was employed to evaluate the effect of RF-power, pressure, and reaction time on the ESCA-based relative atomic composition of plasmatreated samples. It was demonstrated that OSiH x Cl y functionalities are present on plasma-exposed surfaces and these functionalization reactions can be controlled by selecting proper plasma parameters.

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