Detail publikace

Degradation products of polyurethanes with enhanced degradability

ČÁSLAVSKÝ, J. MÁCOVÁ, D. TOBIÁŠOVÁ, T. ZLÁMALOVÁ GARGOŠOVÁ, H. VÁVROVÁ, M.

Originální název

Degradation products of polyurethanes with enhanced degradability

Anglický název

Degradation products of polyurethanes with enhanced degradability

Jazyk

en

Originální abstrakt

Polyurethanes (PU) are the world's sixth most abundant synthetic polymer; they show a wide range of properties and therefore they could be found in many products ranging from automobiles to furniture and upholstery. The degradability of polyurethanes could be improved by the addition of the biodegradable filler - most often biooriginated and biodegradable polyol, which partly substitutes the synthetic polyol during PU synthesis. The amount of degradation products of such modified polymers increases substantially; therefore we focus our attention on their identification.

Anglický abstrakt

Polyurethanes (PU) are the world's sixth most abundant synthetic polymer; they show a wide range of properties and therefore they could be found in many products ranging from automobiles to furniture and upholstery. The degradability of polyurethanes could be improved by the addition of the biodegradable filler - most often biooriginated and biodegradable polyol, which partly substitutes the synthetic polyol during PU synthesis. The amount of degradation products of such modified polymers increases substantially; therefore we focus our attention on their identification.

Dokumenty

BibTex


@misc{BUT63757,
  author="Josef {Čáslavský} and Daniela {Mácová} and Tereza {Tobiášová} and Helena {Zlámalová Gargošová} and Milada {Vávrová}",
  title="Degradation products of polyurethanes with enhanced degradability",
  annote="Polyurethanes (PU) are the world's sixth most abundant synthetic polymer; they show a wide range of properties and therefore they could be found in many products ranging from automobiles to furniture and upholstery. The degradability of polyurethanes could be improved by the addition of the biodegradable filler - most often biooriginated and biodegradable polyol, which partly substitutes the synthetic polyol during PU synthesis. The amount of degradation products of such modified polymers increases substantially; therefore we focus our attention on their identification.",
  address="Escola Polytecnica Superior",
  booktitle="9th European Meeting on Environmental Chemistry: Programme and Book of Abstracts",
  chapter="63757",
  edition="1",
  institution="Escola Polytecnica Superior",
  year="2008",
  month="december",
  pages="29--29",
  publisher="Escola Polytecnica Superior",
  type="presentation"
}