采用半水生硫酸钙强化结构隔热泡沫混凝土的硬化过程

Tat'yana Anikanova, A. Pogromskiy
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引用次数: 12

摘要

与传统的和新型的具有更好热性能的围栏建筑相比,建造更加舒适的节能和资源节约型房屋需要使用更高效的建筑材料。建筑节能问题决定了高效、廉价、高热性能材料的创造和生产方向。这种类型的最有前途的材料之一是环保的,不燃泡沫混凝土。加速泡沫混凝土混合物的凝固和硬化的问题,因为它允许加速形式的周转,减少从制造到将成品送到消费者手中的时间,具有很大的实际意义。然而,在大多数情况下,国产发泡剂的生产和使用没有额外的设置和硬化调节剂的投入。这是由于后者与主要添加剂发泡剂的相容性没有得到充分的研究。这个问题相当复杂,因为有些凝结剂会引起消泡,使泡沫基质的结构恶化,降低石材的机械强度等负面影响。同时,选择合适的凝结促进剂可以增强发泡剂的作用,在工作中考虑了半水硫酸钙(SCS)在泡沫混凝土中的强化硬化应用问题。研究了添加1、2、3%半水硫酸钙的阴离子发泡剂和阳离子发泡剂制备泡沫混凝土的物理力学特性变化。结果表明,SCC可以加速硬化过程,钙矾石的形成不会产生强烈的内应力,这与材料的多孔结构有关。
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THE USE OF SEMI-AQUATIC CALCIUM SULFATE TO INTENSIFY THE PROCESSES OF HARDENING OF STRUCTURAL HEAT-INSULATING FOAMED CONCRETE
construction of energy- and resource-saving housing of increased comfort involves the creation of more efficient building materials in comparison with traditional and new designs of fencing buildings with improved thermal properties. The problem of energy saving in construction has determined the direction of creation and production of effective cheap materials with high thermal properties. One of the most promising materials of this type is environmentally friendly, non-combustible cellular foam concrete. The problem of accelerating the setting and hardening of foam concrete mixtures, as it allows to accelerate the turnover of forms and reduce the time from manufacturing to sending the finished product to the consumer is of great practical interest. However, in most cases, domestic foaming agents are produced and used without additional input of setting and hardening regulators. This is due to the fact that the compatibility of the latter with the main additive – foaming agents is not sufficiently investigated. This problem is quite complex, as some setting accelerators can cause defoaming, worsen the structure of the foam matrix, reduce the mechanical strength of the stone and have other negative effects. At the same time, properly selected setting accelerators enhance the action of foaming agents In the work the questions of application of semi-aqueous calcium sulphate (SCS) for intensification of hardening of foam concrete are considered. The change in physical and mechanical characteristics of foam concrete prepared on anionic and cationic blowing agents with an additional content of 1, 2 and 3% semi-aqueous calcium sulphate is shown. It is established that the SCC allows accelerating the hardening processes, and the formation of ettringite does not cause strong internal stresses, which is related to the porous structure of the material.
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