新一代高性能混凝土:自养护混凝土

Silvia Weber , Hans W. Reinhardt
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引用次数: 201

摘要

关于养护效率对高强混凝土力学性能的影响,文献和现场数据存在争议。传统的养护方法可能会失败的情况下,混凝土与低水/胶比和添加硅灰。水化过程迅速,水化后的水泥浆体非常致密,外部的水无法到达混凝土内部实现完全水化。用预湿轻骨料代替25%的骨料体积,在混凝土内部产生储水,从而支持连续湿养护。本文的目的是介绍一种新型高性能混凝土。介绍了所用材料及其性能,并给出了混合方法。研究了不同养护条件下混凝土最重要的力学性能和硬化水泥浆体的微观结构。结果表明,引入水库的方法可以成功地获得性能改善且对养护相对不敏感的高性能混凝土。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A New Generation of High Performance Concrete: Concrete with Autogenous Curing

The literature and site data on the efficiency of curing are controversial regarding its effect on the mechanical properties of high strength concrete. The traditional methods of curing may fail in cases of concrete with a low water/binder ratio and with addition of silica fume. Hydration proceeds quickly, the hydrated cement paste is very dense, and water from the outside cannot reach the interior of the concrete to achieve complete hydration. Replacing 25% by volume of the aggregates by prewetted lightweight aggregates creates water storage inside the concrete, which supports continuous wet curing. The purpose of this article is to introduce a new type of high performance concrete. The materials used and their properties are shown, and the mixing procedure is given. The most important mechanical properties of the concrete under various curing conditions and the microstructure of the hardened cement paste were investigated. The results show that the method of introducing a water reservoir can be successfully applied to obtain high performance concrete with improved properties while being relatively insensitive to curing.

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