El reciclado de firmes in situ con cemento es la técnica de rehabilitación de carreteras más sostenible, al transformar el firme deteriorado en una capa nueva, aprovechando la carretera como suministro de áridos. Ante la ausencia de investigaciones, esta Tesis caracteriza el material estructuralmente y determina las leyes de comportamiento. Para ello, seleccionado un tramo de carretera tipo (SA-801), reciclado y transportado al laboratorio, se ensayó durante tres años (más de 350 roturas, muchas de ellas dinámicas), determinando: � La correlación entre resistencia a compresión controlada en obra (7 días), y resistencia a tracción y flexotracción a largo plazo (nunca antes medidas). � La caracterización a fatiga. Los resultados obtenidos permiten obtener modelos matemáticos de respuesta del reciclado, que con modelos de comportamiento, optimizan el dimensionamiento. Se realiza una propuesta de normalización a nivel nacional, concretando todo ello en un catálogo de secciones de firme reciclado in situ con cemento.
On site pavement recycling with cement is the most sustainable restoration technique, by means of which a degraded pavement is transformed into a consistent and more homogeneous structure, using the road as a source of aggregates. Both bearing capacity and homogeneity are therefore considerably improved. Due to the absence of research information, this Thesis characterizes the structural recycled material and determines its laws of behavior. To do this, the SA-801 road was selected and recycled. The material was transported to the laboratory and underwent testing over a period of three years (more than 350 strength tests, many of these have dynamic variables) in order to obtain the following: � Correlations between compressive strength at 7 days intervals, which is the usual control parameter at the work site, and long-term tensile and flexural strength (not tested previously). � Fatigue characterization of recycled materials with cement. These results have been used to develop performance models, optimizing the structural design of pavements with cement-recycled layers. Using performance and behavior models, a catalog of structural sections has been proposed and could be implemented in the near future.
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