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A platform for research: civil engineering, architecture and urbanism
Thermal and hygric parameters of carbon-fiber-reinforced cement composites after thermal and mechanical loading
The basic thermal and hygric parameters of two different types of carbon-fiber-reinforced cement composites are analyzed in this article. The thermal conductivity, specific heat capacity, moisture diffusivity, and water vapor diffusion resistance factor are determined as functions of thermal load and tensile load applied before the measurement as well as of the combination of both types of load. The tensile load up to failure is found to be not a very significant factor for all material properties analyzed except for the moisture diffusivity. On the other hand, the thermal load is observed to result already at 600 deg C in considerable changes in all investigated thermal and hygric properties except for the specific heat capacity. The combinations of thermal and tensile loads lead to similar results as the effect of the thermal load alone so that the domination of the thermal load is apparent. This is supposed to be due to the positive effect of randomly distributed carbon fibers that can reduce the damage of the pore structure by the tensile stress. The resistance of the materials studied to high temperatures expressed by the change of hygric and thermal properties after thermal load is found to be positively affected by the application of the high alumina cement and in the case of the Portland cement-based composite also by using the autoclaving procedure in the production process.
Thermal and hygric parameters of carbon-fiber-reinforced cement composites after thermal and mechanical loading
The basic thermal and hygric parameters of two different types of carbon-fiber-reinforced cement composites are analyzed in this article. The thermal conductivity, specific heat capacity, moisture diffusivity, and water vapor diffusion resistance factor are determined as functions of thermal load and tensile load applied before the measurement as well as of the combination of both types of load. The tensile load up to failure is found to be not a very significant factor for all material properties analyzed except for the moisture diffusivity. On the other hand, the thermal load is observed to result already at 600 deg C in considerable changes in all investigated thermal and hygric properties except for the specific heat capacity. The combinations of thermal and tensile loads lead to similar results as the effect of the thermal load alone so that the domination of the thermal load is apparent. This is supposed to be due to the positive effect of randomly distributed carbon fibers that can reduce the damage of the pore structure by the tensile stress. The resistance of the materials studied to high temperatures expressed by the change of hygric and thermal properties after thermal load is found to be positively affected by the application of the high alumina cement and in the case of the Portland cement-based composite also by using the autoclaving procedure in the production process.
Thermal and hygric parameters of carbon-fiber-reinforced cement composites after thermal and mechanical loading
Thermale und hygrische Parameter der kohlenstofffaserverstärkten Zementverbundwerkstoffe nach thermischer und mechanischer Belastung
Mnahoncakova, Eva (author) / Vejmelka, Roman (author) / Jirickova, Milena (author) / Cerny, Robert (author) / Rovnanikova, Pavla (author) / Bayer, Patrik (author)
Journal of Buildings Physics ; 29 ; 121-143
2005
23 Seiten, 8 Bilder, 2 Tabellen, 44 Quellen
Article (Journal)
English
Feuchtedurchlässigkeit , kohlenstofffaserverstärkter Beton , mechanische Beanspruchung , Portlandzement , spezifische Wärme , Verbundwerkstoff , Vergleichsuntersuchung , Wärmebelastung , Wärmekapazität , Wärmeleitfähigkeit , Wasserdampf , Wasserdampfaustausch , Wasserdampfdurchlässigkeit , Zement , Zugbeanspruchung , Zugspannung
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