Frederico de Souza scite author profile

This work aims to assess the bending properties of glued laminated timber beams (glulam) manufactured with species louro-vermelho (Sextonia rubra). Laminations were nondestructively tested using the transverse vibration method (E Mlam ). Then 10 glulam beams were manufactured and tested in static bending according to ASTM D 198 standard, having modulus of elasticity (E M ), modulus of rupture (f M ), and bending moment (M) determined. The finished beams were also tested by the transverse vibration method (E Mvt ). It was noted that the E Mvt value was only 2% lower than the E M value. Using laminations with a high modulus of elasticity did allow effective gain in stiffness. Therefore, results indicate that the transverse vibration method is a valid, reliable technique both for testing glulam laminations and for assessing stiffness in finished beams. Bending properties in glulam beams were influenced by the stiffness of constituent laminations.Key words: Transverse vibration, glued laminated timber, static bending. EFEITO DA CLASSIFICAÇÃO NÃO DESTRUTIVA DAS LÂMINAS SOBRE AS PROPRIEDADES DE FLEXÃO DE VIGAS MLC PRODUZIDAS COM LOURO-VERMELHO (Sextonia rubra) RESUMO: Conduziu-se este trabalho, com o objetivo de avaliar as propriedades de flexão de vigas de madeira laminada colada (MLC) produzidas com a espécie louro-vermelho (Sextonia rubra). As lâminas foram classificadas não destrutivamente pelo método de vibração transversal (E Mlam ). Em seguida, 10 vigas de MLC foram produzidas e ensaiadas em flexão estática, conforme a norma ASTM D 198 e determinados o módulo de elasticidade (E M ), o módulo de ruptura (f M ), e o momento fletor (M). As vigas consolidadas foram ainda avaliadas pelo método de vibração transversal (E Mvt

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Ultrasound waves for assessing the technological properties of Pinus caribaea var hondurensis and Eucalyptus grandis wood

Ribeiro¹,

Gonçalez²,

Gonçalves

et al. 2013

Maderas, Cienc. tecnol.

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The forest sector plays an important role in the economy and, in these times of sustainability, industries need to save natural resources and leverage them as best as possible in order to achieve excellence in product quality and win the consumer market. The use of advanced technologies and improvement in pre-existing techniques is the most efficient way to understand the raw material, and improve the quality of products manufactured and their rational use. The use of nondestructive technologies has proven effective in characterizing and assessing wood quality. This work aims to predict certain physical and mechanical properties of Pinus caribaea and Eucalyptus grandis, using ultrasound. The research was conducted at the University of Brasilia (UNB), in conjunction with the Forest Products Laboratory (LPF/SFB) and the State University of Campinas (UNICAMP/SP). The results permit us to state that certain physical-mechanical properties of these species can be predicted with ultrasound. The property best estimated is density, followed by modulus of elasticity and modulus of rupture.

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Densidade energética de briquetes de biomassa lignocelulósica e sua relação com os parâmetros de briquetagem

Souza

Vale

2017

Pesq. Flor. Bras.

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A densidade energética é uma das principais propriedades que definem a qualidade do briquete, pois resume as características químicas, as condições de umidade e a quantidade de calor do produto final em uma única variável. Para analisá-la, foram confeccionados seis briquetes por tratamento (pinus, tauari, cumaru, casca de arroz, bagaço de cana e torta de pinhão manso) em uma prensa briquetadeira Lippel modelo LB-32 com 40 g de biomassa cada e 5 min de prensagem. Os parâmetros de briquetagem foram: duas temperaturas (130 e 200 ºC), duas pressões de compactação (80 e 120 kgf cm-²) e dois tamanhos de partículas (grossas – retidas em peneira 35 mesh; finas – não retidas a 35 mesh). A densidade energética foi obtida multiplicando-se o poder calorífico útil pela densidade aparente. Adicionalmente, realizou-se a análise química imediata. Os resíduos florestais tiveram o carbono fixo 9,0% superior e cinzas 2,3% inferior, comparados aos resíduos agrícolas. A densidade aparente dos briquetes variou de 1,088 a 1,305 g cm-³ e a densidade energética entre 3,11 – 4,67 Gcal m-³. Os briquetes de cumaru foram considerados de melhor qualidade, com densidades aparente e energética de 1,23 g cm-³ e 4,61 Gcal m-³, respectivamente. Concluiu-se que o efeito da temperatura favoreceu a qualidade do briquete, superando os efeitos da pressão de compactação e tamanho da partícula.

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