Influencia de la dosificación y granulometría del caucho de neumáticos fuera de uso (NFU) y de las dimensiones físicas en las propiedades térmicas, acústicas y mecánicas de placas de mortero de yeso-caucho

Abstract: A mi familia.Gracias. AgradecimientosEn primer lugar quiero agradecer a mi familia el estímulo y apoyo que me han ofrecido en todo momento.Agradecer también a todas las personas, instituciones y empresas que de una u otra forma han colaborado en la elaboración de esta tesis.A mi Director y amigo, D. Pablo Luis Mayor Lobo, que siempre me animó a continuar y aportó su buen humor a las tareas más difíciles.De manera especial al catedrático D. Francisco Hernández Olivares, que me guio y me regaló su tiempo, sus co… Show more

“…However, in all the impacts on the samples with PR, the steel ball rebounded, which corroborated the increase in elasticity achieved in the composites under study (verified and analyzed with Young's modulus in the previous section), showing the composite E0.8 50PR the highest shock-impact resistance (0.73 mm mark depth). These results are also similar to those obtained by other researchers [36,37,40,41], in which the improvement of the shock-impact resistance capacity was observed in mixtures of plaster with polymeric residues. The static Young's modulus showed a significant decrease in the stiffness of all the composites, with respect to the reference sample.…”

“…In this case, the most elastic PR composite was also E 0.8 70PR (2664.15 MPa) and the stiffest was E 0.8 50PR (2976.26 MPa). These data corroborate the results obtained in other studies using gypsum and rubber waste [36][37][38][39], in which the elasticity of the compounds significantly increased with the content of polymer waste.…”

“…The incorporation of pellets up to 60% of PR did not imply a high increase in the insulation capacity, as the thermal conductivity coefficient of the materials studied was much higher with respect to the thermal conductivity coefficient of an insulating material, such as expanded polystyrene or mineral wool, with thermal conductivities of 0.039 W/(mK) and 0.050 W/(mK) respectively. However, it should be noted that, according to the data obtained, both the E0.8 50PR and E0.8 60PR boards showed a slight thermal improvements with respect to the board without PR, which makes them more energy-efficient than the traditional material, corroborating the studies of other researchers using polymeric waste [36,[47][48][49].…”

“…obtained, both the E0.850PR and E0.860PR boards showed a slight thermal improvements with respect to the board without PR, which makes them more energy-efficient than the traditional material, corroborating the studies of other researchers using polymeric waste [36,[47][48][49].…”

Study of the Mechanical and Physical Behavior of Gypsum Boards with Plastic Cable Waste Aggregates and Their Application to Construction Panels

“…However, in all the impacts on the samples with PR, the steel ball rebounded, which corroborated the increase in elasticity achieved in the composites under study (verified and analyzed with Young's modulus in the previous section), showing the composite E0.8 50PR the highest shock-impact resistance (0.73 mm mark depth). These results are also similar to those obtained by other researchers [36,37,40,41], in which the improvement of the shock-impact resistance capacity was observed in mixtures of plaster with polymeric residues. The static Young's modulus showed a significant decrease in the stiffness of all the composites, with respect to the reference sample.…”

“…In this case, the most elastic PR composite was also E 0.8 70PR (2664.15 MPa) and the stiffest was E 0.8 50PR (2976.26 MPa). These data corroborate the results obtained in other studies using gypsum and rubber waste [36][37][38][39], in which the elasticity of the compounds significantly increased with the content of polymer waste.…”

“…The incorporation of pellets up to 60% of PR did not imply a high increase in the insulation capacity, as the thermal conductivity coefficient of the materials studied was much higher with respect to the thermal conductivity coefficient of an insulating material, such as expanded polystyrene or mineral wool, with thermal conductivities of 0.039 W/(mK) and 0.050 W/(mK) respectively. However, it should be noted that, according to the data obtained, both the E0.8 50PR and E0.8 60PR boards showed a slight thermal improvements with respect to the board without PR, which makes them more energy-efficient than the traditional material, corroborating the studies of other researchers using polymeric waste [36,[47][48][49].…”

“…obtained, both the E0.850PR and E0.860PR boards showed a slight thermal improvements with respect to the board without PR, which makes them more energy-efficient than the traditional material, corroborating the studies of other researchers using polymeric waste [36,[47][48][49].…”

Study of the Mechanical and Physical Behavior of Gypsum Boards with Plastic Cable Waste Aggregates and Their Application to Construction Panels

“…Finally, the thermal conductivity of the samples was analysed by a PHYWE high-insulating house, coupled with five thermocouples of type K (NiCr–Ni) [ 49 ]. It consisted of a direct comparison with an insulation of known thermal conductivity [ 50 , 51 , 52 ]. Samples were dried at 40 °C, for a minimum of 24 h, to achieve constant mass before testing them.…”

Microstructural and Thermo-Physical Characterization of a Water Hyacinth Petiole for Thermal Insulation Particle Board Manufacture

Analysis of the improved water-resistant properties of plaster compounds with the addition of plastic waste