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Desenvolvimento de comp?sito um de matriz polim?rica com carga/refor?o de fibras de pia?ava e pet p?s-consumo

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Previous issue date: 2017-06-05 / Diante da realidade mundial de preserva??o ambiental, da necessidade de reaproveitamento de insumos, redu??o de custos e melhoramento de propriedades, tem-se desenvolvido muitas tecnologias que atendam a uma s?rie desses fatores e, se poss?vel, a todos. Nesse sentido, os materiais comp?sitos assumem um papel de destaque nesse desenvolvimento de novos materiais. O PET (Polietileno tereftalato) tem sido muito utilizado pela ind?stria mundial em v?rias aplica??es, onde a principal dessas ? a produ??o de embalagens de produtos de aliment?cios, em que as ind?strias de refrigerantes s?o os grandes consumidores desse produto. J? na linha de fibras naturais, existe uma vasta quantidade de op??es de uso em aplica??es de engenharia (Sisal, carna?ba, algod?o, pia?ava, etc.). Diante do exposto, esse trabalho visa ? produ??o, caracteriza??o (Mec?nicos, t?rmicos e f?sicos) e compara??o de uma s?rie de configura??es de materiais comp?sitos com uma matriz polim?rica (Ep?xi) com refor?o de PET p?s-consumo e pia?ava (Resina ep?xi para refer?ncia; ep?xi com fibras de PET; ep?xi com fibras de pia?ava; e comp?sito h?brido). Os comp?sitos foram produzidos com fibras bidirecionais em forma de tecido, as fibras tinham espa?amento entre elas de 1 cm. Os materiais refor?ados promoveram aumento de algumas propriedades, como flex?o, que apresentou um incremento de cerca de 25% na tens?o m?xima admiss?vel do material. Observou-se que a ordena??o das fibras em sentido unidirecional pode melhorar as resist?ncias mec?nicas do comp?sito, isso porque, de forma geral, todas as rupturas dos ensaios ocorreram em uma sec??o de fragiliza??o provocada pelas fibras transversais aos esfor?os. Quando submetidos a esfor?os mec?nicos, o comp?sito com refor?o/carga de PET apresentou-se como a melhor configura??o, o qual apresentou um m?dulo de elasticidade em regime de flex?o 24% maior que a resina pura. J? em an?lise t?rmica, o comp?sito h?brido apresentou melhores caracter?sticas para isolamento t?rmico, visto que sua condutividade t?rmica reduziu em 2% quando comparado com o ep?xi puro. / Over the world reality of environment preservation, the necessity of reuse supplies, reduction of costs and improvement of properties, it has been developed many technologies that support a series of these factors and, if possible all of them. In this sense, the composite materials assume a special role in the growth of new materials. The PET (polyethylene terephthalate) has been utilized by worldwide industries in many different applications, from which the principal one of them is the packaging of food production, wherefrom the soft drink industries are the most substantial consumer of this product. As for natural fibers research line, there is a vast quantity of options for engineering application handling (Sisal, carnauba, cotton, piassava, etc.) In the face of what has been exposed, this research strives for the production, characterization (Mechanical, thermal and physical) and comparison of a series of configurations in the composite materials with a polymer matrix (Epoxy) with reinforcement of PET after consummation and piassava (epoxy resin for reference; enhancement resin with piassava fibers; and hybrid composite). The composites were produced with bidirectional fibers in a format of tissue, the fibers had spaces between them of 1 centimeter. The reinforced materials promoted increment of some properties, such as flection, that presented an enhancement of nearly 25% of maximum tension admitted in the material. It was observed however, that the ordination of the fibers in a unidirectional way might improve the mechanic resistance of the composite, that?s because, in general form, all the ruptures occur in one section of fragilization provoked by the transversal fibers to the reinforces. While submitted to mechanic reinforces, the composite with reinforce/charge of PET presented itself with an improved configuration, Which showed a modulus of elasticity in a regime of flexion 24% larger than the pure resin. As for the thermal analysis, the hybrid composite presented enriched characteristics for the thermal insulation, since its thermal conductivity reduced by 2% when compared to the pure epoxy.

Identiferoai:union.ndltd.org:IBICT/oai:repositorio.ufrn.br:123456789/24142
Date05 June 2017
CreatorsLima, Rudson de Souza
Contributors12391085400, Silva J?nior, Dorgival Albertino da, 05131125456, Ford, Elmo Thiago Lins Couras, 05237288405, Mota, Maria Kalionara de Freitas, 05095942470, Santos, Natanaeyfle Randemberg Gomes dos, 03047568499, Mendes, Jos? Ubiragi de Lima
PublisherPROGRAMA DE P?S-GRADUA??O EM ENGENHARIA MEC?NICA, UFRN, Brasil
Source SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/doctoralThesis
Sourcereponame:Repositório Institucional da UFRN, instname:Universidade Federal do Rio Grande do Norte, instacron:UFRN
Rightsinfo:eu-repo/semantics/openAccess

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