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Advances in Wood Composites II

Wood composites have shown very good performance and substantial service lives when correctly specified for the exposure risks present. The selection of an appropriate product for the job should be accompanied by decisions about the appropriate protection, whether this is by design, by preservative...

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Bibliographic Details
Main Author: Papadopoulos, Antonios N.
Format: eBook
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
Cell-wall Polymers
Flexure
Hydroxyl Accessibility
Veneer Stack Heating
Electron Beam Irradiation
Ammonia Treated Wood
Wood
Hot Pressing
Densification
Aspen
Chicken Feather
Plywood
Creep
Graphene
Light Transmittance
New Approaches
Nano-materials
Bending Strength
Hdpe
Willow
Dibenzoyl Peroxide
Thermoplastic
Physico-chemical Characteristics
Biomass
Wollastonite
Viscoelasticity
Composite Panels
Compositional Analysis
Engineering Materials
Injection Molding
Wood Composite Binders
Short-rotation
Biosourced Wood Adhesives
Modulus Of Elasticity
Environment-friendly
Colour Change
Tensile Strength
Black Locust Wood
Impedance Tube
Sorption Behavior
Biocomposite
Water Absorption
Up-cycling
Thermal Conductivity Coefficient
Decay Resistance
Orthogonal Test
N/a
Natural Materials
Transparent Wood
Core Layer Temperature
Dynamic Mechanical Analysis
Epdm Rubber
Synthetic Wood Adhesives
Fire Retardancy
History Of Engineering And Technology / Bicssc
Bonding Quality
Partial Delignification
Veneer-drying Temperature
Wood Composites
Composite
Thickness Swelling
Wood Preservatives
Morphological Structure
Modeling
Cross-liking
Power Law
Sound Absorption Coefficient
Wpc
Sorption Fitting Model
Feather Protein
Treatability
Microstructure Behavior
Formaldehyde Emission
Nano-carrier
Bonding Strength
Fire Retardants
Wood Sawdust
Spruce And Larch Bark
Birch Plywood
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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653 |a flexure 
653 |a hydroxyl accessibility 
653 |a veneer stack heating 
653 |a electron beam irradiation 
653 |a ammonia treated wood 
653 |a wood 
653 |a hot pressing 
653 |a densification 
653 |a aspen 
653 |a chicken feather 
653 |a plywood 
653 |a creep 
653 |a graphene 
653 |a light transmittance 
653 |a new approaches 
653 |a nano-materials 
653 |a bending strength 
653 |a HDPE 
653 |a willow 
653 |a dibenzoyl peroxide 
653 |a thermoplastic 
653 |a physico-chemical characteristics 
653 |a biomass 
653 |a wollastonite 
653 |a viscoelasticity 
653 |a composite panels 
653 |a compositional analysis 
653 |a engineering materials 
653 |a injection molding 
653 |a wood composite binders 
653 |a short-rotation 
653 |a biosourced wood adhesives 
653 |a modulus of elasticity 
653 |a environment-friendly 
653 |a colour change 
653 |a tensile strength 
653 |a black locust wood 
653 |a impedance tube 
653 |a sorption behavior 
653 |a biocomposite 
653 |a water absorption 
653 |a up-cycling 
653 |a thermal conductivity coefficient 
653 |a decay resistance 
653 |a orthogonal test 
653 |a n/a 
653 |a natural materials 
653 |a transparent wood 
653 |a core layer temperature 
653 |a dynamic mechanical analysis 
653 |a EPDM rubber 
653 |a synthetic wood adhesives 
653 |a fire retardancy 
653 |a History of engineering and technology / bicssc 
653 |a bonding quality 
653 |a partial delignification 
653 |a veneer-drying temperature 
653 |a wood composites 
653 |a composite 
653 |a thickness swelling 
653 |a wood preservatives 
653 |a morphological structure 
653 |a modeling 
653 |a cross-liking 
653 |a power law 
653 |a sound absorption coefficient 
653 |a WPC 
653 |a sorption fitting model 
653 |a feather protein 
653 |a treatability 
653 |a microstructure behavior 
653 |a formaldehyde emission 
653 |a nano-carrier 
653 |a bonding strength 
653 |a fire retardants 
653 |a wood sawdust 
653 |a spruce and larch bark 
653 |a birch plywood 
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520 |a Wood composites have shown very good performance and substantial service lives when correctly specified for the exposure risks present. The selection of an appropriate product for the job should be accompanied by decisions about the appropriate protection, whether this is by design, by preservative treatment, or by wood modification techniques. This Special Issue, "Advances in Wood Composites II", presents recent progress in enhancing and refining the performance and properties of wood composites by chemical and thermal modification and the application of smart nanomaterials. Such enhancements and refinements have made wood composites a particular area of interest for researchers. In addition, this Special Issue reviews some important aspects in the field of wood composites, with particular focus on their materials, applications, and engineering and scientific advances, including solutions inspired biomimetically by the structure of wood and wood composites. This Special Issue, as a collection of 14 original contributions, provides selected examples of recent advances in wood composites. 

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