Bending Creep Property of Cross-Laminated Woods Made With Six Domestic Species

Byeon, Jin Woong; 김태호,; Yang, Jung Wook; Byeon, Hee Seop; Park, Han-Min

doi:10.5658/wood.2017.45.6.689

Journal of the Korean Wood Science and Technology

2017

DOI: 10.5658/wood.2017.45.6.689

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Bending Creep Property of Cross-Laminated Woods Made With Six Domestic Species

Jin Woong Byeon¹,

김태호 김태호²,

Jung Wook Yang³

et al.

Abstract: In this study, with the view to using effectively small and medium diameter Korean domestic woods as structural materials, cross-laminated woods were manufactured by using six species of Korean domestic softwoods and hardwoods, and bending creep properties were investigated for each species. The creep curves showed the shape of the exponential function plot, and the creep curves after 1 hour were able to estimate by fitting it to the power law. The initial and creep compliances of cross-laminated woods showed … Show more

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Cited by 4 publications

References 14 publications

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Static Bending Performances of Cross-Laminated Wood Panels Made with Tropical and Temperate Woods

Byeon¹,

Kim²,

Yang³

et al. 2018

Journal of the Korean Wood Science and Technology

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In this study, for using effectively domestic (temperate) small and medium diameter logs as a wooden floorboard, cross-laminated wood panels were manufactured using domestic larch and tulip woods as a base material for teak and merbau wood flooring, and static bending strength performances were measured to investigate the applicability as the base materials of wooden flooring in place of plywood. Static bending MOE was much influenced by the strength performances of the top layer lamina than that of the laminae for base materials. Bending MOR showed the higher values in tulip wood that was hardwoods than in larch wood that was softwoods regardless of the strength performances of the top layer laminae, and it was found that the values were much influenced by the strength performances of the base materials used in the core and bottom layers. However these values were 1.4-2.5 times higher values than the bending strength of the wooden floorboards specified in KS, it was found that it can be sufficiently applied to the base materials of wooden floorboards in place of plywood.

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Static Bending Performances of Cross-Laminated Wood Panels Made with Tropical and Temperate Woods

Byeon¹,

Kim²,

Yang³

et al. 2018

Journal of the Korean Wood Science and Technology

Self Cite

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Physical-Mechanical Properties of Laminated Board Made from Oil Palm Trunk (Elaeis guineensis Jacq.) Waste with Various Lamina Compositions and Densifications

Prabuningrum¹,

Massijaya²,

Hadi³

et al. 2020

Journal of the Korean Wood Science and Technology

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The purpose of this study was to investigate a method for improving the physical and mechanical properties of laminated board made from oil palm trunk (OPT). The effects of pretreating the lamina with heat-pressure and altering the lamina composition of the laminated board were investigated. The outer third of OPT in cross-section had high-density wood, while the underlying third had low to medium density. The hot press was applied to pretreat the lamina that had low to medium density. The lamina were 1.5 cm in thickness, 5 cm in width, and 65 cm in length. The hot press was applied at 2.94 MPa or 4.41 MPa at 150 ℃ for 60 minutes, and the target thickness of the lamina was 1 cm. The three layers of the laminated board samples were bonded with isocyanate adhesive at a glue spread of 300 g/㎡ and cold pressed at 0.98 MPa for 3 h. The laminated board samples were tested according to Japanese Agricultural Standard (JAS) 234-2003. The results showed that the densification of the inner lamina did not significantly affect the physical-mechanical properties of the laminated board produced. However, the laminated board made with high-density laminas for the outer layers fulfilled the JAS 234-2003 standard for the modulus of elasticity and the modulus of rupture.

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Bending Creep Properties of Cross-Laminated Wood Panels Made with Tropical Hardwood and Domestic Temperate Wood

Park¹,

GONG²,

SHIN³

et al. 2020

Journal of the Korean Wood Science and Technology

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For efficient use and expansion of domestic small-and medium-diameter woods, cross-laminated wood panels composed of tropical hardwoods and domestic temperate woods were fabricated, and the bending creep behavior under long-term loading was investigated. The bending creep curve of the cross-laminated wood panels showed an exponential function graph with a sharp increase at the top right side. The wood panel composed of a teak top layer and larch core and bottom layers recorded the highest initial deformation, and that composed of a merbau top layer and tulip core and bottom layers showed the lowest initial deformation. Creep deformation of the cross-laminated wood panels showed the highest value in that composed of a teak top layer and larch core and bottom layers and showed the lowest value in that composed of a merbau top layer and tulip core and bottom layers. The obtained creep deformation is 3.1-4.3 times that of merbau, however, it is remarkably lower than that of tulip and larch. The highest relative creep was recorded by the wood panel composed of merbau top layer and larch core and bottom layers, whereas that composed of the teak top layer and tulip core and bottom layers showed the lowest relative creep.

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Bending Creep Property of Cross-Laminated Woods Made With Six Domestic Species

Cited by 4 publications

References 14 publications

Static Bending Performances of Cross-Laminated Wood Panels Made with Tropical and Temperate Woods

Static Bending Performances of Cross-Laminated Wood Panels Made with Tropical and Temperate Woods

Physical-Mechanical Properties of Laminated Board Made from Oil Palm Trunk (Elaeis guineensis Jacq.) Waste with Various Lamina Compositions and Densifications

Bending Creep Properties of Cross-Laminated Wood Panels Made with Tropical Hardwood and Domestic Temperate Wood

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