期刊
SUSTAINABILITY
卷 14, 期 2, 页码 -出版社
MDPI
DOI: 10.3390/su14020708
关键词
recycled concrete aggregate; recycled aggregate concrete; workability; compressive strength; pavement
The use of recycled aggregate to reduce the over-exploitation of raw aggregates is necessary. This study analysed and categorised the properties of water-washed, fine and coarse, recycled aggregates following European Normalization (EN) specification. The results showed that plain recycled concrete produced using 100% recycled concrete aggregates had adequate properties and could be used for large-scale production. The addition of admixtures improved the workability and properties of the concrete, while reducing environmental impact.
The use of recycled aggregate to reduce the over-exploitation of raw aggregates is necessary. This study analysed and categorised the properties of water-washed, fine and coarse, recycled aggregates following European Normalization (EN) specification. Because of their adequate properties, zero impurities and chemical soluble salts, plain recycled concrete was produced using 100% recycled concrete aggregates. Two experimental phases were conducted. Firstly, a laboratory phase, and secondly, an on-site work consisting of a real-scale pavement-base layer. The workability of the produced concretes was validated using two types of admixtures. In addition, the compressive and flexural strength, physical properties, drying shrinkage and depth of penetration of water under pressure validated the concrete design. The authors concluded that the worksite-produced concrete properties were similar to those obtained in the laboratory. Consequently, the laboratory results could be validated for large-scale production. An extended slump value was achieved using 2.5-3% of a multifunctional admixture plus 1-1.2% of superplasticiser in concrete production. In addition, all the produced concretes obtained the required a strength of 20 MPa. Although the pavement-base was produced using 300 kg of cement, the concrete made with 270 kg of cement per m(3) and water/cement ratio of 0.53 achieved the best properties with the lowest environmental impact.
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