粉碎细料的评价

IF 0.7 Q4 CONSTRUCTION & BUILDING TECHNOLOGY Nordic Concrete Research Pub Date : 2022-12-01 DOI:10.2478/ncr-2022-0015
Annika Gram, B. Lagerblad
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引用次数: 0

摘要

随着混凝土工业中使用的砂和细碎料等自然资源的日益稀缺,破碎料正在被更大程度地利用。机器碾碎的材料的形状和质地不同于经过数百万年的自然碾磨、分层和分类的集料。假设破碎的集料比天然集料更有棱角,纹理更不光滑,这将影响含有破碎材料的悬浮液的流动行为。在胶凝悬浮物的配合比设计过程中,微砂浆的充分流变(混凝土中的所有成分都能够通过0.125毫米的筛,包括水泥)是至关重要的。在本文中,细颗粒的形状与包括水泥在内的填料悬浮液的微砂浆塑性粘度有关。此处的塑性粘度是填料质量的重要评价指标,因为微砂浆和易性特性对混凝土和易性的最终配合比设计质量至关重要。
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Evaluation of Crushed Fine Materials
Abstract As natural resources of sand and fine material used in the concrete industry are becoming more scarce, crushed materials are being used to a greater extent. Shape and texture of machine crushed materials differ from aggregates naturally ground, layered and sorted under the course of millions of years. It is assumed that crushed aggregates are more angular and of less smooth texture than natural aggregates, which will affect the flow behaviour of a suspension containing crushed material. In the mix design process of cementitous suspensions, an adequate rheology of the micro mortar (all constituents in the concrete being able to pass a 0.125 mm sieve, including the cement) is crucial. In this paper, the shape of fine particles is linked to the micro mortar plastic viscosity of the filler suspension including cement. The plastic viscosity here serves as an important quality assessment of the filler, since the micro mortar workability features are vital for the final mix design quality of the concrete workability.
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来源期刊
Nordic Concrete Research
Nordic Concrete Research CONSTRUCTION & BUILDING TECHNOLOGY-
自引率
20.00%
发文量
8
期刊最新文献
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