Investigation of Portland cement composites containing high amounts of different kinds of fly ashes

The proceedings of the 13th international conference "Modern Building Materials, Structures and Techniques" (MBMST 2019) Pub Date : 2019-12-03 DOI:10.3846/mbmst.2019.113

I. Wilińska, B. Pacewska, W. Kubissa

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引用次数: 3

Abstract

Utilization of fluidized fly ash in cement composite is problematic, e.g. because of its changeable chemical composition and increased water demand of the mixture. However, this kind of by-product shows some self-cementing properties, which may be beneficial for low-cement mixtures. The article compares the impact of various kinds of fly ashes, i.e. fluidized fly ash and conventional one, and their mixtures on hydration of fly ash–cement compositions in relation to properties of final material. The amount of fly ash in the binder was 50 wt%. Calorimetry, thermal analysis (TG/DTG) and infrared spectroscopy were used. Compressive strength and water absorption of hardened composites were also registered. It was found that both fly ashes exhibit delay effect in fly ash-cement pastes which causes extension of initial setting time and lower heat released compared to the reference without fly ash. At later hydration days, fluidized fly ash develops higher pozzolanic activity than conventional one. Compositions with fluidized fly ash show better compressive strength compared to those containing conventional one. Mixing of different materials of high and low activity (fluidized and conventional fly ash in this case) seems to be a good way for creation of new cement replacement material.

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高掺量不同粉煤灰硅酸盐水泥复合材料的研究

流态化粉煤灰在水泥复合材料中的利用存在问题，例如，由于其化学成分的变化和混合物对水的需求增加。然而，这种副产物表现出一定的自胶结特性，这可能有利于低水泥混合料的制备。本文比较了流化粉煤灰和常规粉煤灰及其混合料对粉煤灰水泥水化性能的影响。粘结剂中粉煤灰的掺量为50%。采用量热法、热分析(TG/DTG)和红外光谱法。硬化复合材料的抗压强度和吸水率也得到了记录。结果表明，粉煤灰和粉煤灰在粉煤灰-水泥浆体中均表现出延迟效应，使初凝时间延长，放热量低于不加粉煤灰的对照。在水化后期，流态化粉煤灰比常规粉煤灰具有更高的火山灰活性。含流态化粉煤灰的组合物比含常规粉煤灰的组合物具有更好的抗压强度。混合不同的高活性和低活性材料(流化粉煤灰和常规粉煤灰)似乎是创造新的水泥替代材料的好方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The proceedings of the 13th international conference "Modern Building Materials, Structures and Techniques" (MBMST 2019)

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