Synthesis, Processing, Structure and Properties of Polymer Materials

© 2022 by the authors; CC BY-NC-ND license

poly(lactic acid); epoxidized natural rubber; polymer blend; natural additives; antioxidant; polymer blending; radiation crosslinking; polyethylene; polyurethane; heat resistance; mechanical property; aramid fiber; ballistic test; failure mechanism; cyclotriphosphazane; flame retardancy; dielectric properties; azo compound; liquid crystal; structure–property relationship; axial behavior; geopolymer concrete (GC); ferrocement; finite element analysis (FEA); polyacrylonitrile; lignin; electrospinning; selective chemical dissolution; porous nanofibers; nanofibers; soft template; peat soil; cement; stabilization; fly ash; polypropylene fiber; unconfined compressive strength (UCS); California bearing ratio (CBR); scanning electron microscopy (SEM); bio-based polyurethanes; jatropha oil; algae oil; recovered palm oil; epoxy composite; green composite; corn cob; polycarbonates; transesterification; polycondensation; polymer; hydrogen; hydrophobic; sensing; nanostructures; palladium; polymer composite; fibre-prestressing; residual stresses; PCL–SBA-15 nanocomposites; real-time variable-temperature synchrotron measurements; confinement; mechanical behavior; nanoclay; nanocomposites; mechanical properties; impact properties; hardness; polymer composites; graphene quantum dots; bioactive; biomedical; synthesis; PVK; hexylthiophene; PANI; nanocomposite; photovoltaic cells; DFT; polyhydroxyalkanoates; fibers; mechanical properties; biodegradability; packaging; patents; flame retardancy; poly(aminopropyl/phenyl)silsesquioxane; thiol-ene; kinetics; activation energy; polymer characterization; mechanical properties; viscoelasticity; DMA; solution blow spinning; polyethylene oxide; morphology; materials characterization; polymer dissolution; kaolin flocculation; aggregate resistance; salinity; flocculation kinetic; shear rate; thermoplastic starch; silane; foam; carbon dioxide; microcapsules; dip coating; encapsulation; spectroscopy; microscopy; antibacterial silver; polyaniline; dodecylbenzene sulfonic acid; γ-Al₂O₃; in situ polymerization; core–shell nanocomposite; polyphosphazene; micro-nanospheres; species-absorbing mechanisms; hydrophobicity; thermochemical; PVDF; alkali-grafting; α-methyl styrene; acrylonitrile; proton exchange membrane; block copolymers; random copolymers; catalytic membranes; esterification; isopropyl acetate; bioinspired bottlebrush polymers; aqueous boundary lubrication; friction; wear resistance; supramolecular hydrogel; acrylic acid; maleic anhydride; terpyridine; coordination interaction; thermoplastic polyurethanes; surface free energy; dithiol; mechanical properties; differential scanning calorimetry; optical properties; arsine; ligands; polypropylene; catalyst; degradation; sol-gel process; 3D network hybrid materials; nanoparticles; nanodispersity; ionic liquids; n/a