06764nam 2202149z- 450 991056646550332120231214133313.0(CKB)5680000000037725(oapen)https://directory.doabooks.org/handle/20.500.12854/81173(EXLCZ)99568000000003772520202205d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPolymer Processing and SurfacesBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (436 p.)3-0365-3626-4 3-0365-3625-6 This book focuses on fundamental and applied research on polymer processing and its effect on the final surface as the optimization of polymer surface properties results in the unique applicability of these over other materials. The development and testing of the next generation of polymeric and composite materials is of particular interest. Special attention is given to polymer surface modification, external stimuli-responsive surfaces, coatings, adhesion, polymer and composites fatigue analysis, evaluation of the surface quality and microhardness, processing parameter optimization, characterization techniques, among others.Research & information: generalbicsscBiology, life sciencesbicsscthermoplastic polyurethanes blendspressure sensitive adhesivesviscoelastic propertiesadhesion propertiestackcreepcohesion propertiesnano-structure functional filmmagnetron sputteringcellulose insulation polymerspace chargehydrophobicityzinc oxidepolytetrafluoroethylenebromoisobutyryl esterificationcornstarchsynthesis processpast stabilityadhesionfilm propertiesmullitewhiskersnonaqueous precipitation methodaluminum fluoridepolar transformationscrewaspect ratiocarbon nanotubedispersionmasterbatchnanocompositepolyamidepolyamide 6halloysite nanotubefunctionalizing agentin situ polymerizationmelt blendingpolymorphismhydrothermal ageingpolymersoctaglycidyl-POSSDGEBAdicyandiamideacceleratorscorrosionprotective coatingsinfrared spectroscopyrheologypoplar woodwaterborne UV lacquer productwood modificationcontact anglespectroscopysuper-hydrophobic coatingelastic sensorcarbon nanotubeswearable electronicsmonitoring of breathingstrain sensorpolymer compositeCNTsconstruction compositefriction resistancesurface statelow dielectric constantPIirradiationdielectric losstin compoundsvalsartanpoly(vinyl chloride)additivesaverage molecular weightweight lossfunctional group indexPETpolymerplasma jettilted applicationROS distributionUVVUVepoxyJoule heatingfast curingaccelerated formingshape memoryAcrylonitrile Butadiene Styrenesound absorption3D printing technologyfrequencythicknessair gappolyvinyl alcoholcationic polyacrylamidepolyvinyl chlorideazodicarbonamidemicro-structurediffusion platemicro injection moldinggrindingethylene-octene-copolymercarbon fiberspolyanilinepolypyrrolethermoelectric compositessurface coatingdopamine hydrochloridegraphene oxidesurgical suturefrictionPoly(vinylidene chloride-co-acrylonitrile) (P(VDC-co-AN ))thermo-dynamic surface characterizationsurface free energyinverse gas chromatographyvisual traitscomputer vision and image processingbasalt fiberepoxy compositeglass transition temperatureDMATMAcreep recoverystress-relaxationheterogeneous nucleationcell morphologyinjection molding foamingcomposite materialsvisualizationgloss transition defectsurface defectsurface glossshrinkagemold surface replicationsurface analysisinjection moldingpolymer surface modificationhydrophobic propertiesoptimizationmathematical modelingpoly(ethylene glycol) (PEG)conjugationN,N′-disuccinimidyl carbonate (DSC)immobilizationsurface modificationultra-high molecular weight polyethylenecellulose nanofiberbionanocompositemelt-blendingethanol mixingResearch & information: generalBiology, life sciencesSedlačík Michaledt1293409Sedlačík MichalothBOOK9910566465503321Polymer Processing and Surfaces3023568UNINA