A atenção sustentada e vigilância são alguns dos processos que caracterizam a atenção e fundamentais para o desenvolvimento de algumas habilidades. OBJETIVO: Propor um instrumento comportamental simples, de fácil e rápida aplicação para auxiliar na avaliação da habilidade de atenção auditiva sustentada. Estudo prospectivo. MATERIAL E MÉTODO: Crianças voluntárias de 6 a 11 anos de idade, 139 do gênero feminino e 141 do masculino. O teste foi denominado Teste da Habilidade da Atenção Auditiva Sustentada e baseado no Teste de Desempenho Contínuo. Consiste na apresentação biaural e diótica, de uma lista de 100 palavras monossilábicas nas quais estão inclusas 20 vezes o monossílabo que deverá ser identificado. Esta lista é apresentada seis vezes sem interrupção. É realizado em cabina acústica, com auxílio de um CD player acoplado a um audiômetro de dois canais a 50 dBNS e tem uma duração média de 9 minutos.O resultado do teste é obtido pela pontuação total e pelo decréscimo de vigilância. RESULTADOS: A obtenção dos resultados mostrou-se fácil e rápida. Não foi encontrada significância estatística nos resultados para ambos os gêneros, porém significativa diferença foi encontrada entre as idades. CONCLUSÃO: O teste proposto não apresentou qualquer desconforto às crianças participantes e mostrou-se altamente sugestivo para avaliar a habilidade de atenção auditiva sustentada em crianças.
This study evaluated the physical and mechanical characteristics of particleboards made of bamboo waste from the species Dendrocalamus giganteus bonded with two different types of adhesives: urea-formaldehyde (UF) and a castor oil based adhesive (M). Thus, eight types of particleboards were produced in the proportions of 6%, 8%, 10% and 12% for each adhesive. The results showed that particleboards produced with UF and M adhesives had acceptable behavior for physical tests according to the Brazilian standard NBR 14810. The results attained in mechanical tests (MOR and MOE), for all particleboards, were below the requirements for structural usage. This indicates that the residue of bamboo is a feasible raw material alternative for particleboards produced for non structural purposes, such as liners, partitions and other uses for internal seal. Regarding the adhesives, the particleboards produced with UF particleboards showed superior results for both physical and mechanical characteristics, when compared to M particleboards with the same percentage of adhesive.
The use of particleboards (PB) has increased quickly as an alternative engineered wood product mainly due to its having a better ratio of resistance to weight and more elimination of wood defects, such as the presence of knots. Although the panel industry has been constantly growing, innovations are still necessary to improve the final product. The use of metallic oxide nanoparticles on the wood-based panels has the potential to increase the heat transfer process and improve the physico-mechanical properties. The aim of this work was to evaluate the influence of the addition of zinc oxide (ZnO) nanoparticles in PB, correlating the physical and mechanical properties of the panel with the heat transfer process at 180 °C. The results were compared with the Brazilian standard ABNT NBR 14810-2 (2013) and the European standard EN 312 (2010), as well with works found in literature. The results showed a homogenous heat distribution during the pressing, which improved physical properties, decreasing the 24h swelling from 22.2% to 14.9% and the 24 h absorption from 30.29% to 21.0%. Besides that, MOR values was increased from 11.3 MPa to 14.5 MPa and the MOE from 1880 MPa to 2510 MPa.
Particleboards were made using particles from sugarcane bagasse and eucalyptus residues of the pulp industry. The particleboard properties were evaluated according to ABNT NBR 14810-1 (2013), ABNT NBR 14810-2 (2013), and ANSI A208.1 (1999) standards, which compared the efficiency of castor oil-based polyurethane resin (PU-Castor) and urea-formaldehyde resin (UF). The particleboards were composed of 60% wood particles and 40% bagasse, with a 10% adhesive dose based on the dry mass of particles. The following parameters were evaluated: apparent density, moisture content (MC), thickness swelling after 24 h, modulus of rupture (MOR), modulus of elasticity to static bending (MOE), and internal bond strength of panels (IB). The results obtained demonstrated the potential use of eucalyptus and sugarcane bagasse residues in the production of high-density particleboards. The panels produced with PU-Castor showed greater efficiency, and their physical and mechanical properties were compatible with the requirements of the Brazilian standard for P4 panels (structural panels for use in dry conditions) and the American standard for H-3 panels (high industrial density).
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