Abstract
The present paper reports the results of an investigation regarding the determination of bending strength and stiffness in specimens of laminated veneer lumber (LVL) manufactured from Argentinean Eucalyptus grandis and tested edgewise according to European standards. For this purpose an empirical research project with one sample containing 44 specimens with nominal sizes of 24.3 mm in width, 100 mm in depth and 2.44m in length was carried out. The characteristic strength value was 74 % and 118 % higher, respectively, than those adopted by Argentinean standards for the best strength class of sawn and glued laminated timber of the same species. It was similar to that reported for LVL of Norway spruce and lower than that published for LVL made from Uruguayan Eucalyptus grandis even though in the latter case the reported value was not obtained according to European standards. The modulus of elasticity mean value was 22 % and 14 % higher, respectively, than those adopted by Argentinean standards for the best strength class of sawn and glued laminated timber of the same species. Modulus of elasticity also exhibited a mean value 22 % and 53 % higher, respectively, than those published for LVL manufactured from Norway spruce and Uruguayan Eucalyptus grandis. A relatively low variation of results was found for both strength (COV = 9 %) and modulus of elasticity (COV = 10 %) and the particularly high stiffness/density relation previously published for sawn timber of this Argentinean deciduous species was confirmed by the results of this study. The coefficient of determination (R 2 ) between density and modulus of elasticity was equal to 0.67 whereas R 2 reached 0.37 between modulus of elasticity and strength and 0.19 between density and strength.
Highlights
Previous studies showed that both sawn and glued laminated timber of Argentinean Eucalyptus grandis, which is one of the most important renewable species cultivated in Argentina (INTA1995), may advantageously perform as structural material (Piter et al 2004b and 2007)
Benites (2004) informs mean values of 96.4 N/mm2 and 11200 N/mm2 for strength and modulus of elasticity of laminated veneer lumber (LVL) manufactured from Uruguayan Eucalyptus grandis, respectively
The characteristic strength value obtained in this research was 74 % higher than that adopted by the Argentinean standard IRAM 9662-2 (2006) for the best strength class of sawn timber of Argentinean Eucalyptus grandis and it was 118 % higher than that adopted by IRAM 9660-1 (2006) for the best strength class of glued laminated timber of the same species
Summary
Previous studies showed that both sawn and glued laminated timber of Argentinean Eucalyptus grandis, which is one of the most important renewable species cultivated in Argentina (INTA1995), may advantageously perform as structural material (Piter et al 2004b and 2007). The ratio of modulus of elasticity to density of this species (Piter et al 2004c) is higher than the same ratio for all strength classes for deciduous species according to European standards, which may be an important advantage for structural purposes. Plywood and other wood-based panels are made from Argentinean Eucalyptus grandis but laminated veneer lumber (hereafter LVL) was not produced up to the present from this species and, no systematic studies regarding its mechanical properties have been carried out. (E3264BTD) Concepción del Uruguay, Entre Ríos, Argentina
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