Obtenção de nanofibras de curauá e aplicação como reforço em compósitos baseados em PVA

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Efeito da adição de lama vermelha como carga nas propriedades mecânicas de compósitos de poliéster insaturado reforçado com fibra natural de curauá (Ananas erectifolius)

Atualmente, devido à necessidade crescente de materiais de bom desempenho mecânico e devido questões ambientais, busca-se cada vez mais a substituição de fibras sintéticas usadas em compósitos (como a fibra de vidro) por fibras naturais. Uma fibra natural que já vem sendo utilizada pela indústria automobilística é a fibra de Curauá (Ananas erectifolius) e apresenta excelente resistência à tração. Na expectativa de melhorar certas propriedades dos compósitos e de reduzir a quantidade de resina, e desse modo o custo, busca-se também o uso de cargas incorporadas à matriz dos compósitos. Em trabalhos recentes têm-se estudado a lama vermelha (resíduo da indústria da bauxita) como carga devido sua alta disponibilidade e baixo custo, além de ser uma resíduo potencialmente perigoso para o ambiente. O objetivo desse trabalho foi analisar os efeitos da adição de lama vermelha em compósitos de poliéster reforçados com fibras naturais de Curauá (Ananas erectifolius). Os resultados mostraram que a utilização da lama vermelha como carga em proporções volumétricas maiores ou iguais a 20% e fibra de curauá em fração volumétrica de 5% provocou um efeito de reforço significativo.

Fertilidade e fauna edáfica em solo sob reflorestamento com paricá (Schizolobium amazonicum Huber ex Ducke) no município de Aurora do Pará

Com este estudo objetivou-se avaliar a variação na fertilidade do solo e na fauna edáfica sob reflorestamento com paricá (Schizolobium amazonicum Heber ex. Ducke) em monocultivo ou em sistema agroflorestal quando comparados com floresta secundária em área experimental considerando a sazonalidade da precipitação no período de 2009 e 2010. A área experimental pertence a Fazenda Tramontina Belém S/A, localizada no nordeste paraense, no município de Aurora do Pará. Foram analisados quatro tratamentos submetidos a reflorestamento com: Curauá (Ananas comosus var. erectifolius L.B.Smith), Paricá (Shizolobium var. amazonicum Huber ex Ducke) sob a forma de monocultivos, Paricá + curauá (Ananas comosus var. erectifolius L.B.Smith; Shizolobium var. amazonicum Huber ex Ducke); Paricá + Mogno + Freijó + Curauá (Shizolobium var. amazonicum Huber ex Ducke; Switenia macrophylla, King; Cordia goeldiana Huber; Ananas comosus var. erectifolius L.B.Smith). As amostragens foram realizadas em dezembro de 2009, abril e julho de 2010, o que caracterizou o período sazonal de transição (estiagem para chuva intensa), chuva intensa e estiagem respectivamente, para avaliar a granulometria, densidade aparente, densidade da partícula, porosidade total e umidade atual, bases trocáveis, soma de bases, CTC, acidez, fósforo, teor de carbono orgânico, pH, em três profundidades diferentes (0 – 10 cm. 10 - 20 cm; 20 – 40 cm) e a ocorrência de macrofauna edáfica. Os resultados mostraram a ação dos períodos sazonais sobre a densidade aparente, densidade da partícula, porosidade total do solo. Fatores químicos como, por exemplo, carbono orgânico, cujos teores variaram entre 5,85 g/kg e 13,00 g/kg, com teores elevados no sistema de cultivo S2, sofreu alterações nos períodos sazonais chuva intensa e estiagem. Quanto a fauna edáfica, foram capturados 9.964 invertebrados pertencentes a 26 táxons diferentes. Os mais abundantes foram Hymenoptera- Formicidae (5.805), Coleoptera (1.454), Acari (862), Collembola (649), Diplopoda (307) e Isopoda (110). Dos 26 táxons identificados, aproximadamente 40% deles apresentaram apenas um representante nas três amostragens efetuadas ou em apenas uma delas. Os maiores valores para frequência relativa ocorreu no sistema de cultivo S2, S4 e S3, respectivamente. O maior valor para frequência absoluta ocorreu durante o período sazonal chuva intensa em S1. As áreas sob reflorestamento com monocultivo e sistema agroflorestal paricà + curauá mostraram melhores desempenhos na recuperação da fertilidade do solo e da fauna edáfica comprovando a eficácia do paricá em monocultivo ou em sistema agroflorestal na recuperação da fertilidade do solo e da fauna edáfica.

Influência da Espessura nas Propriedades Mecânicas de Compósitos Híbridos Interlaminares de Curauá/Vidro/Poliéster

The interest in the use of vegetable fibers (e.g. jute, sisal and curaua) for more noble applications, such as reinforcement in polymeric composite materials, has increased over the years due to a variety of aspects, especially those related to environmental legislation and community awareness regarding the life cycle of products. In this context, the aim of this work is to develop hybrid interlaminate curaua/glass/insaturated polyester composites by hot compression molding and to analyze their mechanical properties as a function of the thickness of the laminate. The short beam strength of the thickest sample decreased due to its higher void content. Furthermore, the thinnest sample showed lower hardness, and lower impact, tensile and Iosipescu shear strength, partly attributed to its lower fiber volumetric fraction. Thus, in general, the most adequate laminate was the one comprising eight layers, four of which were of glass fiber and four of curaua fiber, but only if flexural loading is not critical.

Extração e Caracterização de Uma Enzima Proteolítica do Curauá (Ananas erectifolius)

Ananas erectifolius (curaua) is a fibrous vegetable that can be found in North and Central West regions of Brazil. It is a bromeliaceae family plant which physico-chemical features provides great potential in the automobilistic industry as a source of fibers. As commonly described in other bromeliaceae species, it contains significant levels of bromelain, of high commercial value and wide range of aplications in food, pharmaceutical and cosmetic industry. In this paper, experimental tests were performed to evaluate the extraction of the proteolytic enzymes of the Ananas erectifolius under different pH and temperature conditions to determine in which ones the enzymatic activity would be the maximum for later purification of the bromelain. The two commercially available curaua varieties (white and purple) were used in the experiments and the results showed the same optimal pH of 8,5 for both varieties and different temperatures of 30ºC for the white one, and 10ºC, 20ºC and 35ºC for the purple one.

LYOCELL AND COTTON FIBERS AS REINFORCEMENTS FOR A THERMOSET POLYMER

Cellulose fibers obtained from the textile industry (lyocell) were investigated as a potential reinforcement for thermoset phenolic matrices, to improve their mechanical properties. Textile cotton fibers were also considered. The fibers were characterized in terms of their chemical composition and analyzed using TGA, SEM, and X-ray. The thermoset (non-reinforced) and composites (phenolic matrices reinforced with randomly dispersed fibers) were characterized using TG, DSC, SEM, DMTA, the Izod impact strength test, and water absorption capacity analysis. The composites that were reinforced with lyocell fibers exhibited impact strengths of nearly 240 Jm(-1), whereas those reinforced with cotton fibers exhibited impact strengths of up to 773 Jm(-1). In addition to the aspect ratio, the higher crystallinity of cotton fibers compared to lyocell likely plays a role in the impact strength of the composite reinforced by the fibers. The SEM images showed that the porosity of the textile fibers allowed good bulk diffusion of the phenolic resin, which, in turn, led to both good adhesion of fiber to matrix and fewer microvoids at the interface.

Natural fibers based composites - Technical and social issues

Brazil is the only country in South America to have an automotive supplier sector based on natural fibers. New opportunities are arising due to an increase demand by the car makers in applying natural fibers in their parts. Several crop fibers have been developed in Brazil. Among them can be listed caroa, piacava, pupunha, mutum and others of regional application. For the automotive industry, which requires large quantities with uniform quality, the alternatives are sisal (170,000 ton/yr), curaua (150 ton/yr in 2003), malva, 200 ton/yr; Brazil is the single largest producer country of sisal, and commercially, the only one in curaua. For South America, the alternatives are fique in Colombia, abaca in equator, flax in Argentina and curaua in Venezuela. It must be understood by the target countries of drugs, is that crop fiber can be an economic alternative to coca in the Andes region, therefore an instrument of land reform and drug reduction plantations. Several companies have a strong program of apply natural fibers based components in their products: Volkswagen do Brazil, DaimlerChrysler, General Motors do Brazil. Among their suppliers can be listed companies such Pematec (curaua), Toro (sisal, coir and jute), Incomer (sisal and jute), Ober (jute, curaua), Indaru (jute and sisal), Antolin (imported kenaf,) Tapetes Sao Carlos (sisal), Poematec (coir) and Art-Gore, with Woodstock'' wood and natural fibers). Figures about production and demand are discussed in the paper.

Evaluation of the genotoxicity of cellulose nanofibers

Background: Agricultural products and by products provide the primary materials for a variety of technological applications in diverse industrial sectors. Agro-industrial wastes, such as cotton and curaua fibers, are used to prepare nanofibers for use in thermoplastic films, where they are combined with polymeric matrices, and in biomedical applications such as tissue engineering, amongst other applications. The development of products containing nanofibers offers a promising alternative for the use of agricultural products, adding value to the chains of production. However, the emergence of new nanotechnological products demands that their risks to human health and the environment be evaluated. This has resulted in the creation of the new area of nanotoxicology, which addresses the toxicological aspects of these materials.Purpose and methods: Contributing to these developments, the present work involved a genotoxicological study of different nanofibers, employing chromosomal aberration and comet assays, as well as cytogenetic and molecular analyses, to obtain preliminary information concerning nanofiber safety. The methodology consisted of exposure of Allium cepa roots, and animal cell cultures (lymphocytes and fibroblasts), to different types of nanofibers. Negative controls, without nanofibers present in the medium, were used for comparison.Results: The nanofibers induced different responses according to the cell type used. In plant cells, the most genotoxic nanofibers were those derived from green, white, and brown cotton, and curaua, while genotoxicity in animal cells was observed using nanofibers from brown cotton and curaua. An important finding was that ruby cotton nanofibers did not cause any significant DNA breaks in the cell types employed.Conclusion: This work demonstrates the feasibility of determining the genotoxic potential of nanofibers derived from plant cellulose to obtain information vital both for the future usage of these materials in agribusiness and for an understanding of their environmental impacts.