Application of slags for the production of resource-efficient paving stones

ce/papers Pub Date : 2023-12-06 DOI:10.1002/cepa.2887
Taban Shams, Sebastian Dittrich
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Abstract

In a recent research project under the lead of the Fraunhofer Institute for Building Physics IBP, gravel and sand within a mixture of paving stones were replaced with LD converter slag and blast furnace slag for 50 wt. % and 100 wt. % to produce resource-efficient concrete components. For this purpose, first, the dry processing of the slags including metal separation and crushing was carried out. In the next step, the particle size distributions of slags using sieve analysis were determined. Finally, the mix designs were set based on the optimum combination of different size fractions of slags. This combination was determined in a way to lead to an almost identical grading curve as that of the original formulation. Splitting tensile strengths of the obtained samples were measured after 14 days of curing under a humidity of 95%. Several paving stone specimens containing slags showed higher splitting tensile strengths than that of the reference sample. Similar results were observed for industrially produced paving stones which demonstrates the successful transfer of the laboratory mixes to the industrial plant.

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矿渣在资源节约型铺路石生产中的应用
在Fraunhofer建筑物理研究所IBP领导下的一项最新研究项目中,将铺路石混合物中的砾石和沙子替换为LD转炉炉渣和高炉炉渣,重量分别为50%和100%,以生产资源高效的混凝土组件。为此,首先对矿渣进行干法处理,包括金属分离和粉碎。下一步,采用筛分法测定炉渣粒度分布。最后,根据不同粒度矿渣的最佳组合确定了混合设计。这种组合在某种程度上决定了与原始配方几乎相同的分级曲线。在湿度为95%的条件下,养护14天后测量所得样品的劈裂拉伸强度。几种含渣铺路石试样的劈裂抗拉强度均高于参考试样。工业生产的铺路石也观察到类似的结果,这表明实验室混合物成功地转移到工业工厂。
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