48 resultados para Formaldeído
Resumo:
Pós-graduação em Engenharia Mecânica - FEG
Resumo:
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
Resumo:
Pós-graduação em Engenharia Mecânica - FEG
Resumo:
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
Resumo:
Products derived from wood or engineered products are becoming interesting alternatives to the replacement of solid wood in various applications, from structural components to the furniture industry and packaging. Among these products, there are panels built by strands, particles and fibers, each one having their particular characteristics and potential of use. Since the different types of panels are produced, waste generation is part of the process, and that more technological it is, it still generates losses of raw materials. Based on the need for rational use of raw materials and using almost full of industrially processed wood, It arises the proposal of this work, which seeks to use waste from the lamination, like pieces of strands, broken strands, strands rough, cracked strands to produce panels with structural characteristics of the OSL panel (Oriented Strand Lumber), LSL (Laminated Strand Lumber) and OSB (Oriented Strand Lumber). Besides the use of waste, this paper seeks an alternative to the use of the adhesive, because the industry uses formaldehyde-based adhesives, which over the press, they emit large amounts of formaldehyde, which is very aggressive to humans and environment. The panels made with polyurethane resin based on castor oil and hot-pressed were characterized by physical and mechanical tests according to specifications of European Standard (EN). High values of tensile strength, elastic modulus and density were found in the results of tests. Adding to stable values of swelling and moisture content, the panel studied adds attractive features to the panel market, especially in the civil construction
Resumo:
A utilização de produtos cosméticos que resultem em alisamento ou relaxamento dos cabelos tem-se tornado cada vez mais comum. O desejo das mulheres em possuir um cabelo liso é registrado desde a época de escravidão e, em 1940, foram lançadas formulações contendo hidróxido de sódio para essa finalidade. O alisamento dos cabelos pode ser obtido por processos térmicos ou químicos, onde o primeiro apresenta efeito temporário (até o contato com umidade) e o segundo apresenta efeito definitivo. Por esse motivo, os alisamentos a base de substâncias químicas é chamado de alisamento definitivo. Diversas substâncias foram historicamente utilizadas a fim de obter o efeito alisante, tais como hidróxido de sódio, hidróxido de lítio, hidróxido de guanidina e tioglicolato de amônia. Em comum, estas substâncias agem profundamente na fibra capilar, alterando as ligações químicas da queratina, resultando em uma reestruturação destas ligações. Entretanto, essas substâncias também causam diversos danos a fibra capilar devido ao mecanismo de ação destes produtos. A supervalorização da imagem feminina e a busca incansável pela beleza fizeram com que, cada vez mais, estas substâncias químicas sejam utilizadas de modo indiscriminado e ilegal. O uso irracional dessas substâncias traz conseqüências graves à saúde dos consumidores e profissionais cabeleleiros, tais como dermatites, intoxicações e riscos de carcinogênese. Como exemplo, o uso de formaldeído como agente alisante foi proibido pela Agência Nacional de Vigilância Sanitária Brasileira (ANVISA) desde 2009, assim como sua venda e exposição em estabelecimentos públicos de todo o país, devido ao alto risco apresentado aos consumidores e profissionais. Dessa forma, a pesquisa e o desenvolvimento de produtos alisantes devem ser feita de modo responsável ...(Resumo completo, clicar acesso eletrônico abaixo)
Resumo:
The adhesives used in the production of engineered boards have been object of study over the years in order to improve the properties of the boards with less energy consumption, lower production costs and reduced environmental impact. In addition to that, process variables may affect the properties of the board. The present study aimed to characterize sheets of plywood, manufactured with two types of adhesives, under two different pressing conditions. The adhesives used for the study were Phenol-formaldehyde and Polyurethane castor oil based. The pressure of pressing was varied in a range from 75 to 160 Bar, in order to verify how they influence the physical and mechanical properties of the board. The tests performed resulted in a conclusion that shows that the moister content of the veneers interferes on the physical and mechanical tests. In general, boards produced with polyurethane resin showed superior physical and mechanical results; although the ones produced with phenol formaldehyde at a pressure of 75 Bar had always equal or higher values, compared to what is found in literature
Resumo:
Studies on new adhesives and resins for bonding wood and wood products are being conducted with the intention of improving their properties, taking into account a lower environmental impact. For this reason new formulations of polyvinyl acetate (PVA) adhesives have been developed, because they have no chemicals in its composition extremely polluting and harmful to health, as is the case of formaldehyde-based resins, which in turn are the most commonly used today for wood panels production. This study tested three different formulations of PVA adhesives, with different times and temperatures of pressing for the production of Eucalyptus sp. Plywood, coming up in satisfactory results with respect to shear strength at the bondline, which was higher for the PVA adhesives compared with urea-formaldehyde and phenol. The results of MOE and MOR were lower than those values of the panels produced with urea and phenol-formaldehyde, and the results of physical tests showed to be close to the panels produced with these same adhesives
Resumo:
A Trimezia juncifolia (Iridaceae) é encontrada nas regiões tropicais e subtropicais e possui características muito próximas das plantas do mesmo gênero e família. Ela é utilizada pela população de Botucatu, São Paulo, para a depuração do sangue, para feridas intermitentes e como antiinflamatório. Por possuir interesse econômico primordialmente ornamental, são raros os estudos que a caracteriza, facilitando as complicações que podem ocorrer por trocas de espécies. Por causa disso, este trabalho tem como objetivos descrever a morfologia externa da Trimezia juncifolia, visando a caracterização da droga vegetal, e a anatomia das raízes, bulbo, caule aéreo e escamas do bulbo, visando uma descrição microscópica farmacopeica. A caracterização morfológica da planta foi feita com o auxílio de estereomicroscópio binocular. Para o estudo anatômico de Trimezia juncifolia (beressol), foram selecionados exemplares que contenham raízes, caule subterrâneo, e caule aéreo. Os catafilos, bulbo, raízes e caule aéreo foram divididos em terço apical, médio e basal. Com ênfase no caule subterrâneo, o bulbo e as raízes tiveram as três frações analisadas, e o catafilo, as frações média e basal. Somente o terço médio do caule aéreo foi analisado.O material foi fixado em solução de glutaraldeído e formaldeído. Em seguida o material foi conduzido às etapas de inclusão em resina (metacrilato). O material incluído foi seccionado em micrótomo de rotação. As secções dispostas em lâminas foram coradas com azul de toluidina pH 6,8. Mesmo com a descrição das frações medianas da raiz, bulbo, catafilos e caule aéreo, ou escapo, na discussão deste trabalho foi dada ênfase à análise do caule subterrâneo e raízes. Mesmo que popularmente a fração utilizada da planta seja o bulbo, essa análise se faz necessária para auxiliar o controle de qualidade... (Resumo completo, clicar acesso eletrônico abaixo)
Resumo:
According to ABIPA (2009), Brazil is currently among the major producers of reconstituted wood panels, with one of the main factors for this condition, its climate and its large land area, which allows the cultivation of forests, which provide raw materials for these industries. To establish that market as power, Brazil has invested about R$ 1.3 billion in the last 10 years, yet designed an investment of 0.8 billion dollars over the next three years (BNDES, 2008). With the new investments in this segment, we expect a growth of about 66% in the resin consumption of urea-formaldehyde (GPC, 2009) which should also result in major investments by the companies producing this polymer. Currently employees are mainly three types of resins in the production industry panels, as follows: Urea-Formaldehyde Resin (R-UF), melamine-formaldehyde resin (R-MF) and Phenol-Formaldehyde Resin (R-FF). Especially the cost factor, the urea-formaldehyde resin is the most used by companies producing reconstituted wood panels. The UF-R is a polymer obtained by condensation of urea and formaldehyde reactors (usually batch type), characterized by being a thermosetting polymer which makes it very efficient for bonding wood composites. The urea-formaldehyde polymer, to present a quite complex, it becomes very difficult to predict the exact chain resulting in the process of condensation of urea with formaldehyde, so that a greater knowledge of its characteristics and methods for their characterization can result in greater control in industrial processes and subsequent decrease cost and improve the quality of reconstituted wood panels produced in Brazil
Resumo:
The research aimed to produce sheets of particles with waste processing of Eucalyptus sp bonded with urea-formaldehyde and evaluate the effect of pressure variation in the quality of the boards produced. To do so, the Boards made were divided into two treatments depending on the pressing pressure of 30 to 40 kgf / cm². Once pressings, climatized, the particleboards have been sectioned in test samples, and underwent physical-mechanical tests for determining density, swelling and water absorption, modulus of rupture and elasticity in static bending and internal linking. The particleboards pressed at 40 kgf / cm ² showed the best results
Resumo:
This study aimed to evaluate the physico-mechanical performance of three PVA adhesive formulations according to the Brazilian standards for plywood testing and to evaluate the results with those presented in the technical literature and specified in normative documents. The study presents the production process of the panels, the obtaining of samples and, finally, the implementation of physico-mechanical characterization tests based on plywood Brazilian standards. For the panels production it was used a gramature of 120 g / m² and applied a pressure of 15 bars and two temperature combinations and pressing time for each adhesive. The commercial adhesives used were PVA 1810, PVA 1060 and Vinyltec 239. The physical tests conducted were thickness swelling, density, moisture content and water absorption. The mechanical tests were static flexion, for the determination of elasticity modulus (MOE) and rupture modulus (MOR), and shear in the glue line. Among the three formulations studied none showed good performance in the presence of water. However, other trials in the adhesive showed better results and closer to the commercially equivalent used, in the case the urea-formaldehyde, was the PVA 1810, that can be applied in non-structural uses and in environments without the presence of moisture
Resumo:
Pós-graduação em Cirurgia Veterinária - FCAV
Resumo:
Pós-graduação em Engenharia Civil - FEIS
Resumo:
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
