PAPERmaking! Vol5 Nr1 2019

 PAPERmaking! FROM THE PUBLISHERS OF PAPER TECHNOLOGY  Volume 5, Number 1, 2019 

Nanocellulose-Reinforced Adhesives for Wood-Based Panels, Elaine Cristina Lengowski et al, Sustainable Polymer Composites and Nanocomposites , pp.1001- 1025. Considering that the solid wood, being a heterogeneous and anisotropic product, presents several disadvantages such as unsatisfactory mechanical properties for certain uses and limitations of wood due to dimensions of wood pieces, reconstituted wood products have been developed by gluing of veneer, boards, lignocellulosic fibres, etc., which are joined using adhesives. It should be noted that changes in adhesion to wood are desirable in terms of performance improvement and adhesive economy. Within the constant search for better performance of adhesives, the use of nanocelluloses appears as a viable option. Further, identification of reinforcement of adhesives with nanocellulose is being considered as an opportunity among the several opportunities offered by nanotechnology for the forest products industry. Use of nanocelluloses as reinforcements in adhesives for the production of reconstituted wood panels has several benefits such as possibility of altering the properties of adhesives, gain in mechanical and physical properties of panels and reduction in formaldehyde emissions by panels using synthetic adhesives. Despite all the advantages mentioned above, the Chapter ends with the conclusion that there are still some problems to be looked into suggesting need for more research either in the application of nanocellulose and its modification in different types of resin, as well as application technologies appropriate to the new conditions of the adhesives. Resource quality of wood waste: The importance of physical and chemical impurities in wood waste for recycling, Giorgia Faraca et al, Waste Management , Vol.87. Recycling of post-consumer wood waste into particleboard may be hindered by the presence of physical and chemical impurities in the waste stream, therefore calling for increased attention on the quality of wood waste. However, wood waste comprises several uses/types of wood, along with different levels of contamination. This study provides the detailed sampling and characterisation of wood waste according to its source, type and resource quality grade. The results showed that chemical contamination was significantly higher for low-quality wood waste, thus clearly indicating that improvements in separate collection, sorting and handling of wood waste may improve the resource quality of wood waste and potentially achieve cleaner recycling practices.

 

Technical Abstracts 

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