Hormigón liviano de alto desempeño - una comparación entre pérdidas de pretensado reales y estimadas por los códigos de diseño

Abstract: Hormigón liviano de alto desempeño-una comparación entre pérdidas de pretensado reales y estimadas por los códigos de diseño High performance lightweight concrete-a comparison between actual prestress losses and design code estimates

“…Nevertheless, much more research on lightweight concretes has been recently carried out to increase their lightweight characteristics [17,19] and better structural performance [20] in order to reduce loads on structures. The most commonly used solution to innovate in lightweight concretes is to incorporate new lightweight aggregates (LWA), replacing normal aggregates (NA) in the dosage components [21][22][23].…”

“…To sum up, the insulating refractory concrete to be developed must exceed conventional values of compressive strength (20)(21)(22)(23)(24)(25) MPa in ordinary concretes for structural purposes) and workability (soft or fluid type, more than 6 cm of cone slump), reaching insulating properties by developing a thermal conductivity lower than 0.4 W/m•K. Above all, conventional components materials such as ordinary Portland cement (not the typical high alumina cement in refractories products), lightweight aggregates, simple additions and commercial admixtures were necessary in order to get a competitive cost, much lower than similar commercial concretes at the temperature level indicated.…”

Advanced Concrete Steam Accumulation Tanks for Energy Storage for Solar Thermal Electricity

“…Nevertheless, much more research on lightweight concretes has been recently carried out to increase their lightweight characteristics [17,19] and better structural performance [20] in order to reduce loads on structures. The most commonly used solution to innovate in lightweight concretes is to incorporate new lightweight aggregates (LWA), replacing normal aggregates (NA) in the dosage components [21][22][23].…”

“…To sum up, the insulating refractory concrete to be developed must exceed conventional values of compressive strength (20)(21)(22)(23)(24)(25) MPa in ordinary concretes for structural purposes) and workability (soft or fluid type, more than 6 cm of cone slump), reaching insulating properties by developing a thermal conductivity lower than 0.4 W/m•K. Above all, conventional components materials such as ordinary Portland cement (not the typical high alumina cement in refractories products), lightweight aggregates, simple additions and commercial admixtures were necessary in order to get a competitive cost, much lower than similar commercial concretes at the temperature level indicated.…”

Advanced Concrete Steam Accumulation Tanks for Energy Storage for Solar Thermal Electricity

“…López y Kahn (2007) realizaron ensayos en vigas con hormigón ligero de alta resistencia (55 y 69 Mpa), presentándose pérdidas de pretensado del 14.3 y 9.6%. Estas pérdidas las comparan con 3 normativas (AASHTO LRFD (1998), ACI-209 (1997) y PCI Design Handbook (1998)), encontrando que todas ellas son muy conservadoras y sobreestiman las pérdidas en el tiempo, principalmente las pérdidas por fluencia y retracción por lo menos un 100%.…”

Comportamiento Adherente Diferido De Armaduras Pretesas en Hormigón