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Textile Reinforced Mortars (TRM) tensile behavior after high temperature exposure
Highlights Mechanical behavior of TRM specimens under high temperature is investigated. Four different TRM systems have been analyzed. The maximum temperature reached has been 600 °C using an electrical oven. Specimens previously damaged by high temperature have been tested experimentally. TRM systems are strongly degraded from 400 °C, and useless for 600 °C.
Abstract Although one of the main advantages of Textile Reinforced Mortars (TRM) is their non-combustible character, their behavior against fire or high temperatures has not been sufficiently studied at present. This work analyzes the behavior of different commercial systems containing inorganic mortars and fabric reinforcements based on glass, carbon and basalt fibers, subjected to different temperature levels. To characterize the mechanical response of the different systems, non-destructive tests have been carried out to determine the dynamic modulus of elasticity of the different materials, and subsequent destructive tests to determine their strength and stress-strain relationship. For this purpose, the TRM coupons have been subjected to uniaxial tensile tests and the deformations have been monitored using LVDT (Linear Variable Displacement Transducer) sensors and DIC (Digital Image Correlation), in order to evaluate cracking patterns and failure modes. The results show, in general terms, that the mechanical capacity of these materials is seriously compromised at temperatures in the order of 400 to 600 °C, which can easily be reached during a fire inside a building. Therefore, it can be concluded that although these systems are erroneously perceived as fire resistant in many cases, they may require additional protection depending on the specific use for which they are intended.
Textile Reinforced Mortars (TRM) tensile behavior after high temperature exposure
Highlights Mechanical behavior of TRM specimens under high temperature is investigated. Four different TRM systems have been analyzed. The maximum temperature reached has been 600 °C using an electrical oven. Specimens previously damaged by high temperature have been tested experimentally. TRM systems are strongly degraded from 400 °C, and useless for 600 °C.
Abstract Although one of the main advantages of Textile Reinforced Mortars (TRM) is their non-combustible character, their behavior against fire or high temperatures has not been sufficiently studied at present. This work analyzes the behavior of different commercial systems containing inorganic mortars and fabric reinforcements based on glass, carbon and basalt fibers, subjected to different temperature levels. To characterize the mechanical response of the different systems, non-destructive tests have been carried out to determine the dynamic modulus of elasticity of the different materials, and subsequent destructive tests to determine their strength and stress-strain relationship. For this purpose, the TRM coupons have been subjected to uniaxial tensile tests and the deformations have been monitored using LVDT (Linear Variable Displacement Transducer) sensors and DIC (Digital Image Correlation), in order to evaluate cracking patterns and failure modes. The results show, in general terms, that the mechanical capacity of these materials is seriously compromised at temperatures in the order of 400 to 600 °C, which can easily be reached during a fire inside a building. Therefore, it can be concluded that although these systems are erroneously perceived as fire resistant in many cases, they may require additional protection depending on the specific use for which they are intended.
Textile Reinforced Mortars (TRM) tensile behavior after high temperature exposure
Estevan, Luis (Autor:in) / Varona, Francisco B. (Autor:in) / Baeza, F. Javier (Autor:in) / Torres, Benjamín (Autor:in) / Bru, David (Autor:in)
09.03.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Textile Reinforced Mortars (TRM) tensile behavior after high temperature exposure
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