Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Strength and elastic properties of structural lightweight concretes
Research highlights ► Strength of lightweight concrete was closely associated with its density. ► The modulus of elasticity for lightweight concretes was comparatively less than that for normal-weight concrete. ► Models given by standards, the software and the equation derived in this study gave close estimated values to the experimental results.
Abstract The study presents the influence of characteristics of four aggregate types (two sintered lightweight fly ash aggregates, cold-bonded lightweight fly ash aggregate and normalweight crushed limestone aggregate) on the strength and elastic properties of concrete mixtures. Different models were also used in order to predict the strength and modulus of elasticity values of concretes. The results of this study revealed the achievement of manufacturing high-strength air-entrained lightweight aggregate concretes using sintered and cold-bonded fly ash aggregates. In order to reach target slump and air content, less amount of chemical admixtures was used in lightweight concretes than in normal-weight concrete, leading to reduction in production cost. The use of lightweight aggregates (LWA) instead of normalweight aggregates in concrete production slightly decreased the strength. The models given by codes, standards and software and equation derived in this study gave close estimated values to the experimental results.
Strength and elastic properties of structural lightweight concretes
Research highlights ► Strength of lightweight concrete was closely associated with its density. ► The modulus of elasticity for lightweight concretes was comparatively less than that for normal-weight concrete. ► Models given by standards, the software and the equation derived in this study gave close estimated values to the experimental results.
Abstract The study presents the influence of characteristics of four aggregate types (two sintered lightweight fly ash aggregates, cold-bonded lightweight fly ash aggregate and normalweight crushed limestone aggregate) on the strength and elastic properties of concrete mixtures. Different models were also used in order to predict the strength and modulus of elasticity values of concretes. The results of this study revealed the achievement of manufacturing high-strength air-entrained lightweight aggregate concretes using sintered and cold-bonded fly ash aggregates. In order to reach target slump and air content, less amount of chemical admixtures was used in lightweight concretes than in normal-weight concrete, leading to reduction in production cost. The use of lightweight aggregates (LWA) instead of normalweight aggregates in concrete production slightly decreased the strength. The models given by codes, standards and software and equation derived in this study gave close estimated values to the experimental results.
Strength and elastic properties of structural lightweight concretes
Kockal, Niyazi Ugur (Autor:in) / Ozturan, Turan (Autor:in)
24.12.2010
8 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Strength and elastic properties of structural lightweight concretes
| British Library Online Contents | 2011
Structural Properties of Lightweight Concretes
| British Library Conference Proceedings | 1995
| Engineering Index Backfile | 1948
| UB Braunschweig | 1963