A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Technological characterization of particleboards made with sugarcane bagasse and bamboo culm particles
Highlights The higher compaction rate of panels has a negative influence on its stability. The increase in the particle compaction rate of the panels increased the MOE and SSW. The increase in the particle compaction rate of the panels reduced that of TSW and IA. The higher compaction rate resulted in a more pronounced profile in the surface regions. The higher compaction rate reduced the wettability and increased the mass loss by fungi.
Abstract The objective of this study was to evaluate the technological properties of particleboards manufactured from sugarcane and bamboo particles. Three mix proportions (25%, 50% and 75%) and control particleboards (100% bamboo or residue) were adopted. Panels manufactured with 75% bamboo particles and 25% bagasse particles achieved the values required by the norm for thickness swelling in 24 h and internal bond. The highest compaction ratio enabled the formation of densitometric profiles with more pronounced peaks on the faces, as evidenced by the images, reduced wettability and increased the mass loss caused by brown rot fungi.
Technological characterization of particleboards made with sugarcane bagasse and bamboo culm particles
Highlights The higher compaction rate of panels has a negative influence on its stability. The increase in the particle compaction rate of the panels increased the MOE and SSW. The increase in the particle compaction rate of the panels reduced that of TSW and IA. The higher compaction rate resulted in a more pronounced profile in the surface regions. The higher compaction rate reduced the wettability and increased the mass loss by fungi.
Abstract The objective of this study was to evaluate the technological properties of particleboards manufactured from sugarcane and bamboo particles. Three mix proportions (25%, 50% and 75%) and control particleboards (100% bamboo or residue) were adopted. Panels manufactured with 75% bamboo particles and 25% bagasse particles achieved the values required by the norm for thickness swelling in 24 h and internal bond. The highest compaction ratio enabled the formation of densitometric profiles with more pronounced peaks on the faces, as evidenced by the images, reduced wettability and increased the mass loss caused by brown rot fungi.
Technological characterization of particleboards made with sugarcane bagasse and bamboo culm particles
Brito, Flávia Maria Silva (author) / Bortoletto Júnior, Geraldo (author) / Paes, Juarez Benigno (author) / Belini, Ugo Leandro (author) / Tomazello-Filho, Mário (author)
2020-08-05
Article (Journal)
Electronic Resource
English
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