Improvement of gluing parameters in Edge Glued Panels

Authors

  • Dante Guilherme Lanhe Universidade de Passo Fundo. Instituto de Tecnologia. Passo Fundo, Brazil.
  • Charles Leonardo Israel Universidade de Passo Fundo. Instituto de Tecnologia. Passo Fundo, Brazil.

DOI:

https://doi.org/10.22320/s0718221x/2024.22

Keywords:

Edge glued panels, mechanical properties, Pinus taeda, shear strength, traction strength

Abstract

Faced with the need for innovation and waste reduction that the market demands, the high consumption of adhesive in the furniture industry led to the need and interest in studying ways to reduce this consumption, through changes in the bonding process without compromising the mechanical properties of the bonded ma- terial. The collage is carried out to form Edge Glued Panels of Pinus taeda (loblolly pine), using PolyVinyl Acetate adhesive with an average weight of 205 g/m². If lower weights are used, using the current application method (roller), mechanical strength problems begin to arise. The objective of this work was to study the fea- sibility of applying glue by another method (spray) with weights and, consequently, shorter pressing times, to evaluate the conservation of the mechanical properties of the panels through shear and traction tests. For that, samples were made according to the standards with the current situation of bonding (weight of 205 g/m² and pressing time of 80 s), to obtain reference results in the tests, and in the proposed situations (adhesive weights of 125 g/m² and 80 g/m² and pressing times of 70 s and 75 s), in an attempt to reach the established reference values. Regarding the results, it was feasible to conclude that the current method could be replaced by the proposed one, using the spray together with an adhesive weight of 125 g/m² and pressing times of 75 s and 70 s, with no statistically significant difference for the current method.

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Published

2024-01-08

How to Cite

Lanhe, D. G. ., & Israel, C. L. . (2024). Improvement of gluing parameters in Edge Glued Panels. Maderas. Ciencia Y Tecnología, 26, 1–12. https://doi.org/10.22320/s0718221x/2024.22

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