Recycling waste from natural stone processing plants to stabilise clayey soil

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• 作者：Osman Sivrikaya (1)
  Koray R. K?y?ld? (1)
  Zeki Karaca (2)
  
• 关键词：Natural stone plant wastes ; Stabilisation ; Clay ; Index properties ; Compaction
• 刊名：Environmental Earth Sciences
• 出版年：2014
• 出版时间：May 2014
• 年：2014
• 卷：71
• 期：10
• 页码：4397-4407
• 全文大小：4,673 KB
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• 作者单位：Osman Sivrikaya (1)
  Koray R. K?y?ld? (1)
  Zeki Karaca (2)
  
  1. Department of Civil Engineering, Nigde University, 51240, Nigde, Turkey
  2. Department of Mining Engineering, Nigde University, 51240, Nigde, Turkey
  
• ISSN：1866-6299

文摘

For the countries with a developed stone industry the waste generated in the natural stone processing plants pose environmental and economic problems. The utilisation of stone waste in various areas is still under research. In addition, there are only a limited number of studies concerning the use of stone waste obtained from processing plants in the stabilisation of clayey soil. Furthermore, none of the studies in the literature investigated the effect of the characteristics of the stone on the stabilisation of the soil. This is the first study that compares the efficiency of the waste calcitic marble, dolomitic marble and granite powder as additives for the stabilisation of clayey soil. Artificial soil samples were prepared in the laboratory using bentonite and kaolinite. Natural stone waste powder was added to the soil samples at different percentages, and the index and compaction parameters of the stabilised soil were analysed. The results showed that the types of waste powder used in this study, like lime, could be used as stabilisers. As the percentage of additives increased, the plasticity index of the clayey soil decreased and the physical properties of the soil changed from clay to silt. In terms of compaction parameters, the use of all types of natural waste powder in the study resulted in a decrease in the optimum water content and an increase in the maximum dry unit weight. The lowest optimum water content and the highest maximum dry unit weight were obtained from the dolomitic marble powder.