Photodegradation of polymers: physical characteristics and applications
In this book on physical characteristics and practical aspects of polymer photodegradation Rabek emphasizes the experimental work on the subject. The most important feature of the book is the physical interpretation of polymer degradation, e.g. mechanism of UV/light absorption, formation of excited states, energy transfer mechanism, kinetics, dependence on physical properties of macromolecules and polymer matrices, formation of mechanical defects, practics during environmental ageing. He includes also some aspects of polymer photodegradation in environmental and space condition.
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Absorption of Radiation
Electronically Excited States in Polymers
Electronic Energy Transfer Processes in Polymers
8 other sections not shown
ablation absorption Allen NS and/or Appl Phys Appl Polym Sci bond carbonyl Chem chemical chromophores chromophoric groups coefficient concentration crosslinking crystalline diffusion dissociation donor and acceptor efficiency emission energy migration energy transfer process equation etching Europ Polym excimer excited donor excited singlet fluence fluorescence formation formed free radicals free volume Geuskens G glass transition temperature Guillet hydrogen atom hydroperoxide hydroxy initial interaction intersystem crossing irradiation ketone kinetics lifetime Macromolecules Makromol Chem McKellar JF mechanism molecular weight molecule Norrish type occur oxidation peroxide photo-oxidative degradation Photochemistry photodegradation Photodegradation of Polymers photoinitiator photolysis plastics poly poly(methyl methacrylate polyethylene polyimide Polym Degrad Stabil Polym Sci Chem polymer alkyl radical polymer chain polymer matrix polymeric polypropylene polystyrene POOH quantum yield quenching Rabek JF radiation absorbed rate constant reaction reactive sample Sect singlet oxygen solvent spin trap Srinivasan surface temperature thermal triplet viscosity wavelength