. . . "567028" . "RIV/68407700:21110/04:01102561!RIV/2005/MSM/211105/N" . "Hygrothermal Properties of Glass Fiber Reinforced Cements Subjected to Elevated Temperature" . . . "273" . "RIV/68407700:21110/04:01102561" . "Hygrothermal Properties of Glass Fiber Reinforced Cements Subjected to Elevated Temperature" . "7"^^ . . . "N\u011Bme\u010Dkov\u00E1, Jitka" . . "Hygrothermal Properties of Glass Fiber Reinforced Cements Subjected to Elevated Temperature"@en . "Z(MSM 210000004)" . "5"^^ . "Bayer, P." . "[06CB499D53D0]" . . . "\u010Cern\u00FD, Robert" . . . . . "Rovnan\u00EDkov\u00E1, P." . . . "597 ; 607" . "Vlhkostn\u00ED a tepeln\u00E9 vlastnosti cementov\u00FDch kompozit vyztu\u017Een\u00FDch sklen\u011Bn\u00FDmi vl\u00E1kny po vystaven\u00ED vysok\u00FDm teplot\u00E1m"@cs . "Hygrothermal Properties of Glass Fiber Reinforced Cements Subjected to Elevated Temperature"@en . "11"^^ . "Toman, Jan" . "1359-5997" . "Vlhkostn\u00ED a tepeln\u00E9 vlastnosti cementov\u00FDch kompozit vyztu\u017Een\u00FDch sklen\u011Bn\u00FDmi vl\u00E1kny po vystaven\u00ED vysok\u00FDm teplot\u00E1m"@cs . . "V \u010Dl\u00E1nku jsou sledov\u00E1ny vlhkostn\u00ED a tepeln\u00E9 vlastnosti cementov\u00FDch kompozit vyztu\u017Een\u00FDch sklen\u011Bn\u00FDmi vl\u00E1kny po vystaven\u00ED vysok\u00FDm teplot\u00E1m."@cs . "Drchalov\u00E1, Jaroslava" . "21110" . "The effect of elevated temperatures on basic hygric and thermal properties of three types of glass fiber reinforced cement composites (GFRC) is analyzed in the paper. The main difference in the composition of particular GFRC is using wollastonite and vermiculite in two of them instead of usual sand aggregates. The composites containing wollastonite and vermiculite are found to have about four times lower thermal conductivity and two to three times lower thermal diffusivity in room temperature conditions. After heating the samples to 8000C and subsequent cooling, a decrease of room-temperature thermal conductivity as high as 50% and an increase of moisture diffusivity in the range of one to two orders of magnitude are observed for all types of studied materials. The application of wollastonite and vermiculite exhibits a positive effect on the high temperature linear thermal expansion coefficient." . "Totov\u00E1, Michaela" . "FR - Francouzsk\u00E1 republika" . . . "Materials and Structures" . "Elevated Temperature; Glass Fiber Reinforced Cement; Hygrothermal Properties"@en . "37" . "The effect of elevated temperatures on basic hygric and thermal properties of three types of glass fiber reinforced cement composites (GFRC) is analyzed in the paper. The main difference in the composition of particular GFRC is using wollastonite and vermiculite in two of them instead of usual sand aggregates. The composites containing wollastonite and vermiculite are found to have about four times lower thermal conductivity and two to three times lower thermal diffusivity in room temperature conditions. After heating the samples to 8000C and subsequent cooling, a decrease of room-temperature thermal conductivity as high as 50% and an increase of moisture diffusivity in the range of one to two orders of magnitude are observed for all types of studied materials. The application of wollastonite and vermiculite exhibits a positive effect on the high temperature linear thermal expansion coefficient."@en .