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of recycled wood particles will result in the reduction of physical and mechanical properties of the panel prod- ucts. Those disadvantages could be overcome by apply- ing modern sorting techniques to eliminate contaminants and appropriate chipping techniques in order to increase the slenderness ratio of recycled wood particles. Further investigations are needed at the moment for the improve- ment of fiberboard properties made from 100% recycled fibers since only up to 25% of waste wood fiber can be utilized in the fiberboard wood mixture achieving compa- rable physical and mechanical properties with fiberboard from virgin wood. • Using waste wood for the production of wood-based panel increases the risk of formaldehyde emission in products of particleboard and OSB, except for fiberboard. However, this risk can be addressed by applying pre- treatment steps to reduce formaldehyde emission (e.g., hydrothermal process) or using formaldehyde-free adhe- sives (e.g., PMDI)
Supplementary Information The online version contains supplemen- tary material available at https://doi.org/10.1007/s00107-023-01937-4.
Author contributions All authors contributed to the study conception and design of this review paper. Papers search, data collection, analysis and interpretation were performed by NDL, JL, MN and AK. NDL wrote the first version of this manuscript. All authors commented and revised on previous versions of the manuscript. At the end, all authors proofread and approved the final manuscript to be published. Funding Open Access funding enabled and organized by Projekt DEAL. German Academic Exchange Service (Deutscher Akademis- cher Austauschdienst [Grant no. 91691453]) funded this research. Data availability The datasets collected, generated and analysed dur- ing the current study are available from the corresponding author on reasonable request.
Declarations
Conflict of interest On behalf of all authors, the corresponding author states that there is no conflict of interest.
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