. . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . . "2"^^ . . . "Influence of pyrolysis temperature on fracture response in SiOC based composites reinforced by basalt woven fabric"@en . . . "000340222800018" . "0955-2219" . "RIV/67985891:_____/14:00433976" . "Halasov\u00E1, Martina" . . "I, P(ED1.1.00/02.0068), P(GAP107/12/2445)" . "34" . . . "10.1016/j.jeurceramsoc.2014.03.003" . "Fracture behaviour; CMCs; Pyrolysis; Basalt fibre; Polysiloxane"@en . . . "Strachota, Adam" . "Journal of the European Ceramic Society" . . "Influence of pyrolysis temperature on fracture response in SiOC based composites reinforced by basalt woven fabric"@en . "Influence of pyrolysis temperature on fracture response in SiOC based composites reinforced by basalt woven fabric" . "14" . . "Dlouh\u00FD, Ivo" . "The fracture resistance of ceramic based composites reinforced by various ceramic fibres can be dramatically enhanced when an efficient fracture mechanism takes place during the crack propagation. Presented work shows an effect of the pyrolysis temperature of the composite matrix on the fracture behaviour of the composite. The matrix is formed from the polysiloxane resin precursor and the reinforcement is a basalt woven fabric. The temperature range under investigation was from 600\u00B0C, where the onset of fracture properties were observed up to 800\u00B0C. Above this temperature basalt fibres suffer by rapid degradation of the microstructure. The optimum stage of the polysiloxane resin transformation maximizing the fracture resistance of the composite was identified. The fractographic analysis of the fracture surfaces revealed the differences in the acting fracture mechanism." . "Influence of pyrolysis temperature on fracture response in SiOC based composites reinforced by basalt woven fabric" . "\u010Cern\u00FD, Martin" . . "The fracture resistance of ceramic based composites reinforced by various ceramic fibres can be dramatically enhanced when an efficient fracture mechanism takes place during the crack propagation. Presented work shows an effect of the pyrolysis temperature of the composite matrix on the fracture behaviour of the composite. The matrix is formed from the polysiloxane resin precursor and the reinforcement is a basalt woven fabric. The temperature range under investigation was from 600\u00B0C, where the onset of fracture properties were observed up to 800\u00B0C. Above this temperature basalt fibres suffer by rapid degradation of the microstructure. The optimum stage of the polysiloxane resin transformation maximizing the fracture resistance of the composite was identified. The fractographic analysis of the fracture surfaces revealed the differences in the acting fracture mechanism."@en . "RIV/67985891:_____/14:00433976!RIV15-GA0-67985891" . "10"^^ . "21569" . "[2C5073F0134F]" . "6"^^ . . . . . "Chlup, Zden\u011Bk" . "Sucharda, Zbyn\u011Bk" . .