Published September 13, 2019 | Version v1
Journal article Open

Investigating face veneer check development in decorative plywood panels: the impact of four common manufacturing factors

  • 1. InnoRenew CoE; University of Primorska, Andrej Marušič Institute
  • 2. Department of Wood Science and Engineering, College of Forestry, Oregon State University
  • 3. Department of Forest Ecosystems and Society, College of Forestry, Oregon State University

Description

An optical method based on digital image correlation was used to investigate the impact of four decorative plywood manufacturing factors (core type, veneer type, adhesive type and lathe check orientation) on face veneer checking. The four core types were: combination core, medium density fbreboard, particleboard, and veneer core. The four veneer types were: peeled 0.604 mm, peeled 0.706 mm, sliced 0.508 mm, and sliced 0.564 mm. Both loose-side out and tight-side out lathe check orientations were used. The adhesive systems were urea–formaldehyde, polyvinyl acetate, and soy-protein based. 96 treatment combinations with 8 replicates were tested. All specimens were exposed to harsh but realistic drying conditions (approximately 30°C and 26% relative humidity) for 4 h during inspection. Checks were detected on 428 out of a total of 765 specimens (56%). The estimated mean check densities (area of checking per unit area) indicated some unfavourable factor combinations. All factors had some degree of interaction with one another and check development could not be attributed to a single factor examined in this study. The data were ft to a generalized linear mixed model based on Tweedie’s compound Poisson distribution. Confdence intervals were calculated via bootstrapping. The check density estimates produced by this model can be used to cautiously guide manufacturers as they decide on panel components. The broader use of the model is to highlight the complexity of the problem and guide future research in this area.

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Additional details

Identifiers

ISSN
0018-3768

Funding

InnoRenew CoE – Renewable materials and healthy environments research and innovation centre of excellence 739574
European Commission