Ceramics-Silikáty (Mar 2012)

RELATION BETWEEN MECHANICAL PROPERTIES AND PYROLYSIS TEMPERATURE OF PHENOL FORMALDEHYDE RESIN FOR GAS SEPARATION MEMBRANES

  • MONIKA ŠUPOVÁ,
  • JAROSLAVA SVÍTILOVÁ,
  • ZDENĚK CHLUP,
  • MARTIN ČERNÝ,
  • ZUZANA WEISHAUPTOVÁ,
  • TOMÁŠ SUCHÝ,
  • VLADIMÍR MACHOVIČ,
  • ZBYNĚK SUCHARDA,
  • MARGIT ŽALOUDKOVÁ

Journal volume & issue
Vol. 56, no. 1
pp. 40 – 49

Abstract

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The aim of this paper has been to characterize the relation between the pyrolysis temperature of phenol-formaldehyde resin, the development of a porous structure, and the mechanical properties for the application of semipermeable membranes for gas separation. No previous study has dealt with this problem in its entirety. Phenol-formaldehyde resin showed an increasing trend toward micropore porosity in the temperature range from 500 till 1000°C, together with closure of mesopores and macropores. Samples cured and pyrolyzed at 1000°C pronounced hysteresis of desorption branch. The ultimate bending strength was measured using a four-point arrangement that is more suitable for measuring of brittle materials. The chevron notch technique was used for determination the fracture toughness. The results for mechanical properties indicated that phenol-formaldehyde resin pyrolyzates behaved similarly to ceramic materials. The data obtained for the material can be used for calculating the technical design of gas separation membranes.

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