L'intérêt croissant dans les traitements de sols à la chaux et au ciment est en raison de la possibilité de réutiliser des matériels de qualité médiocre dans la construction des routes, avec les avantages écologiques clairs. Dans quelques situations, il apparaît plus convenable le traitement chaux-ciment. Dans ce cas la stabilisation de chaux est la première partie d’une procédure dans laquelle on utilise aussi le ciment de Portland ordinaire, le ciment de fournaise d'explosion, la cendre de carburant pulvérisé, ou quelque autre agent hydraulique. Toutefois, pour garantir l'amélioration exigée des propriétés mécaniques pendant le temps, c'est important précisément d'étudier l'addition de chaux/ciment en considérant beaucoup de facteurs comme la gradation de sol, le type et la quantité d'argile contenue, la question organique, le type et la quantité de chaux/ciment ajouté, la période et la température de maturation. À la lumière des susmentionnés faits, les objectifs et les étendues de ce papier ont été établis dans la quantification des avantages et des inconvénients associés à une situation pratique.
The growing interest in cement and/or lime stabilizations is due to the possibility of re-use of poor-quality excavated materials in road constructions, with clear environmental benefits. In some situations, it appears more suitable the lime-cement treatment. In this case the lime stabilization is the first part of a two-sections process using ordinary Portland cement, ground blast furnace cement, pulverised fuel ash, or some other hydraulic binding agent. However, in order to guarantee the required improvement of the mechanical properties during the time, it is important to accurately study the lime/cement addition by considering many factors such as soil gradation, type and amount of clay mineral content, organic matter, type and amount of lime/cement added, curing period and temperature. Rapid curing of the cement, actual clay minerals present in the raw material (necessity to perform X-Ray Diffractions -XRDs), activity of minerals (reactivity tests), insufficient density, Sulphate attack and ettringite formation, are recurring issues. In the light of the abovementioned facts, the objectives and scopes of this paper were focused into the study of lime/cement treatments. Benefits and drawbacks associated to a case-history were described and discuss.
Innovation in the treatment of clayey materials
PRATICO', Filippo Giammaria;GIUNTA, Marinella Silvana
2011-01-01
Abstract
The growing interest in cement and/or lime stabilizations is due to the possibility of re-use of poor-quality excavated materials in road constructions, with clear environmental benefits. In some situations, it appears more suitable the lime-cement treatment. In this case the lime stabilization is the first part of a two-sections process using ordinary Portland cement, ground blast furnace cement, pulverised fuel ash, or some other hydraulic binding agent. However, in order to guarantee the required improvement of the mechanical properties during the time, it is important to accurately study the lime/cement addition by considering many factors such as soil gradation, type and amount of clay mineral content, organic matter, type and amount of lime/cement added, curing period and temperature. Rapid curing of the cement, actual clay minerals present in the raw material (necessity to perform X-Ray Diffractions -XRDs), activity of minerals (reactivity tests), insufficient density, Sulphate attack and ettringite formation, are recurring issues. In the light of the abovementioned facts, the objectives and scopes of this paper were focused into the study of lime/cement treatments. Benefits and drawbacks associated to a case-history were described and discuss.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
