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Advanced Eco-Friendly Wood-Based Composites II
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The ongoing twin transition of the wood-based panel industry towards a green, digital, and more resilient bioeconomy is essential for a successful transformation to decarbonize the sector and implement a circular development model, transforming linear industrial value chains to minimize pollution and waste generation, and providing more sustainable growth and jobs. This green transition represents an opportunity to place the wood-based panel industry on a new path of more sustainable and inclusive growth, tackling climate change and reducing its dependence on fossil-derived raw materials, thus improving the industry’s resource efficiency and security. It provides examples of the most recent advances and technological developments in the design, production, characteristics, and current and future applications of sustainable, eco-friendly wood and wood-based composites with enhanced properties and a reduced carbon footprint. It is intended for material scientists, wood scientists, environmental scientists, graduate and postgraduate students in Wood Science and Technology, as well as wood-based panel industry professionals. In addition, the content is relevant to government authorities and stakeholders working in the domain of sustainable wood value chains, aimed at achieving Sustainable Development Goals and enhanced contribution of the forest-based sector to long-term climate change mitigation.
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Keywords
- acoustics emission
- adaptive control
- adhesion properties
- adhesive combination
- alternative raw materials
- amylopectin
- amylose
- balsa
- Bamboo
- bamboo-based composites
- basic properties
- beting bamboo
- bio-based adhesives
- boric acid
- bridge
- CNC machines
- composite
- composites materials
- Concrete
- Environmental impact
- Fibers
- forest residues
- Formaldehyde
- fracture behaviors
- heat release
- History of engineering & technology
- in situ bending tests
- lay-up pattern
- LCA
- lightweight
- mass loss
- Mechanical properties
- morphological properties
- n/a
- OSB
- parenchymal cells
- particleboard
- Paulownia
- Paulownia tomentosa x elongata
- physical and mechanical properties
- physical properties
- plantation wood
- position in stem
- Road
- semantan bamboo
- shear strength
- starch
- strip arrangement
- Technology, engineering, agriculture
- Technology: general issues
- time-to-ignition
- tool temperature
- Wood
- wood adhesives
- wood properties
- wood shaving
- wood-based materials properties
- wood-based panels
- wood-processing parameters
Links
DOI: 10.3390/books978-3-0365-7664-0Editions