Reprint
Eco Polymeric Materials and Natural Polymer
Edited by
October 2023
428 pages
- ISBN978-3-0365-9149-0 (Hardback)
- ISBN978-3-0365-9148-3 (PDF)
This book is a reprint of the Special Issue Eco Polymeric Materials and Natural Polymer that was published in
Chemistry & Materials Science
Engineering
Summary
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.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
outdoor wood mats-based engineering composite; wood-degrading fungi; decay resistance; durability; nanohydrogels; citral; sustained-release; mechanism; bamboo; anti-mould; rosin modification; round bamboo culm; visual characteristics; eye tracking; surfactant; urea-formaldehyde resin; bamboo; laminated bamboo veneer; gluability; wood–plastic composites; heat transfer modeling; sweet sorghum; high-density polyethylene; hot-pressing; fibrovascular bundle; salacca frond; modified orientation board; citric acid; Aquilaria crassna wood; natural rubber; antifungal; lignin; proteins; compression performance; load–displacement curves; digital image correlation (DIC); failure mode; wood–plastic composites; coupling agent; interfacial bonding; oriented strand–thermoplastic composites; wood veneer–thermoplastic composites; cross-laminated timber; stability coefficient; axial compression; timber structures; slenderness ratio; Chinese pine wood; pine needles; bamboo culms; bamboo leaves; industrial hemp hurd; CMC; DS; mechanical properties; TG; XRD; FTIR; chitosan; tartaric acid; nanocrystal; self-assembly; evaporation; dehydration of crystallization; biopolymers; sustainability; emergy accounting; polyhydoxyalkanoates; slaughterhouse residues; poly(lactic acid); impact modifier; polymer blends; properties; multilayered bamboo fiber; topochemistry; microscopic imaging; gradient micromechanics; core–shell structure; hydrogel; double load; response surface; acidic treatment; bamboo; colour; mould-resistant; starch; Phyllostachys pubescens; fibre; lignification; micro-morphological regions of cell wall; syringyl lignin; guaiacyl lignin; visible-light spectrophotometry; electrochemical method; moisture content; shrinkage strain; wood water loss; konjac glucomannan; oxidized hyaluronic acid; hydrogels; tung oil; bamboo; thermal treatment; color; cellulose fibers; adsorption; Cr(VI); sulfhydryl-modified; water resistance; bamboo scrimber composite; bonding interface; polymer soil consolidation agent; preparation conditions; consolidated adhesive film; compressive strength; seedling transplanting; chemical change; thermal property; bamboo; delignification; pyrolysis; bamboo microstructure; shear performance; test methods; moso bamboo; fracture behavior; shearing characteristics; transparent bamboo; optical properties; mechanical properties; functionalization and application; glycerin; sodium alginate; tensile strength; elongation at break; poplar; cell walls; cross-linking modification; wood properties; egg white hydrogel; dual cross-linking; metal ions; secondary structure; biocompatibility; n/a