期刊
BIORESOURCES
卷 17, 期 4, 页码 6847-6859出版社
NORTH CAROLINA STATE UNIV DEPT WOOD & PAPER SCI
DOI: 10.15376/biores.17.4.6847-6859
关键词
Particleboard; Recycling; Mechanical properties; Formaldehyde emissions
资金
- Mitacs and FPInnovations under Mitacs Elevate project [IT12452]
This study focuses on the recovery of particles from waste laminated particleboards using thermo-hydrolytic treatments. The recovered particles were used to manufacture particleboard panels with substitutions of fresh particles. The results showed that the recovered particles had comparable mechanical properties and formaldehyde emissions to fresh particles, indicating that they can be fully utilized in the manufacture of particleboard without compromising the board performance.
The large global production of particleboards creates an equal quantity of particleboard waste after completion of their service life. Given increasing demand for green products and government environmental policies, it is urgent to develop technologies to recycle these used composite panels into valuable raw materials. This study was conducted to recover particles from waste laminated particleboards using various thermo-hydrolytic treatments. The recovered particles were used as raw materials with different substitutions of fresh particles to manufacture particleboard panels. The performance of the resulting particleboards was evaluated in terms of their mechanical properties and formaldehyde emissions. The nitrogen content of the control and resulting particles were measured to determine the resin removal in recycled particles. The results suggested that different thermo-hydrolytic treatments did not have significant influence on particles size distribution. Approximately 65% of urea-formaldehyde resin was removed from the particleboards treated at 140 degrees C/20 min. Particles recycled at 140 degrees C/20 min were comparable to fresh particles in terms of mechanical properties and formaldehyde emissions, and 100% of the recycled particles were used in the manufacture of particleboard without an adverse impact on the board performance.
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