Effect of vacuum hot pressing on the bonding quality and heat transfer performance of plywood

Vacuum technology was applied to the hot-pressing technology of plywood production with phenolic resin (PF). For plywood with the same number of layers, veneers were hot-pressed with conventional and vacuum hot-pressing processes respectively at the same hot-pressing time. Varying layers (3, 9 and 1...

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Bibliographic Details
Published in:European journal of wood and wood products 2020-05, Vol.78 (3), p.441-447
Main Authors: Hong, Lu, He, Qian, Ju, Zehui, Zhang, Haiyang, Brosse, Nicolas, Lu, Xiaoning
Format: Article
Language:English
Subjects:
Adhesives
Assembly
Biomedical and Life Sciences
Bonding strength
Ceramics
Composites
Energy costs
Engineering Sciences
Fluorescence
Fourier transforms
Glass
Heat transfer
Hot pressing
Infrared detectors
Infrared spectroscopy
Laminates
Life Sciences
Machines
Manufacturing
Mechanical properties
Meshing
Natural Materials
Original
Phenolic compounds
Phenolic resins
Phenols
Plywood
Polymerization
Processes
Thermocouples
Vacuum
Wood Science & Technology
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Summary:Vacuum technology was applied to the hot-pressing technology of plywood production with phenolic resin (PF). For plywood with the same number of layers, veneers were hot-pressed with conventional and vacuum hot-pressing processes respectively at the same hot-pressing time. Varying layers (3, 9 and 15-layers) and spread quantities (220 g m −2 , 260 g m −2 , 300 g m −2 ) were applied. Heat transfer performance of the assembly, polymerization extent of PF, and bonding quality of plywood were examined by thermocouple and humidity sensors, Fourier transform infrared spectroscopy (FTIR), fluorescence microscope and bonding strength measurement. The results indicated that, compared to conventional hot pressing, the temperature of the central layer of the assembly vacuum hot-pressed was significantly increased by about 20–30 °C and the adhesive cured more quickly. The hot-pressing method had a significant influence on the bonding strength of plywood, with an enhancement of the bonding strength to wood failure ratio of 48.37% and 33.55%, respectively. The adhesive between adjacent laminates formed a continuously dense layer with more connection points, leading to excellent mechanical meshing and high bonding quality. In addition, vacuum hot pressing can eliminate the influence of adhesive position on bonding strength and make the mechanical properties of plywood tend to be uniform in thickness direction. Under the experimental conditions, the variable energy cost of 15-ply plywood with 1 m 3 produced by vacuum hot pressing was 3.83% less than that of conventional hot pressing, and the plywood could still maintain good bonding strength at low spread quantity.
ISSN:0018-3768
1436-736X
DOI:10.1007/s00107-020-01531-y