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Eco Polymeric Materials and Natural Polymer
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This reprint covers the latest developments in the field of eco-polymeric materials and natural polymer processing and utilization, highlighting cutting-edge research focusing on the processing of advanced polymers and their composites. It demonstrates that the field of eco-polymeric materials and natural polymers is still gaining increased attention. Innovative approaches as well as advanced applications of eco-polymeric materials and natural polymers in different fields, such as energy, environment, biomedical, biomaterial, and engineering, are reported in this reprint.
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Keywords
- acidic treatment
- adsorption
- anti-mould
- antifungal
- Aquilaria crassna wood
- axial compression
- Bamboo
- bamboo culms
- bamboo leaves
- bamboo microstructure
- bamboo scrimber composite
- Biocompatibility
- biopolymers
- bonding interface
- cell walls
- cellulose fibers
- chemical change
- Chinese pine wood
- chitosan
- citral
- citric acid
- CMC
- Color
- Colour
- compression performance
- compressive strength
- consolidated adhesive film
- core–shell structure
- coupling agent
- Cr(VI)
- cross-laminated timber
- cross-linking modification
- decay resistance
- dehydration of crystallization
- delignification
- digital image correlation (DIC)
- double load
- DS
- dual cross-linking
- durability
- egg white hydrogel
- electrochemical method
- elongation at break
- emergy accounting
- evaporation
- eye tracking
- failure mode
- fibre
- fibrovascular bundle
- fracture behavior
- FTIR
- functionalization and application
- gluability
- glycerin
- gradient micromechanics
- guaiacyl lignin
- heat transfer modeling
- high-density polyethylene
- History of engineering & technology
- hot-pressing
- hydrogel
- Hydrogels
- impact modifier
- industrial hemp hurd
- interfacial bonding
- Konjac glucomannan
- laminated bamboo veneer
- lignification
- lignin
- load–displacement curves
- Materials science
- Mechanical engineering & materials
- Mechanical properties
- Mechanism
- metal ions
- micro-morphological regions of cell wall
- microscopic imaging
- modified orientation board
- moisture content
- Moso bamboo
- mould-resistant
- multilayered bamboo fiber
- n/a
- nanocrystal
- nanohydrogels
- natural rubber
- Optical properties
- oriented strand–thermoplastic composites
- outdoor wood mats-based engineering composite
- oxidized hyaluronic acid
- Phyllostachys pubescens
- pine needles
- poly(lactic acid)
- polyhydoxyalkanoates
- polymer blends
- polymer soil consolidation agent
- poplar
- preparation conditions
- Properties
- Proteins
- pyrolysis
- Response Surface
- rosin modification
- round bamboo culm
- salacca frond
- secondary structure
- seedling transplanting
- self-assembly
- shear performance
- shearing characteristics
- shrinkage strain
- slaughterhouse residues
- slenderness ratio
- sodium alginate
- stability coefficient
- starch
- sulfhydryl-modified
- surfactant
- sustainability
- sustained-release
- sweet sorghum
- syringyl lignin
- tartaric acid
- Technology, engineering, agriculture
- Technology: general issues
- tensile strength
- test methods
- TG
- thermal property
- thermal treatment
- timber structures
- topochemistry
- transparent bamboo
- tung oil
- urea-formaldehyde resin
- visible-light spectrophotometry
- visual characteristics
- water resistance
- wood properties
- wood veneer–thermoplastic composites
- wood water loss
- wood-degrading fungi
- wood–plastic composites
- XRD
Links
DOI: 10.3390/books978-3-0365-9148-3Editions