天然硅灰石微填料对细粒混凝土性能的影响

E. Karpikov, N. Lukutcova, G. Soboleva, S. Golovin, Yu. A. Cherenkova
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引用次数: 9

摘要

证实了从天然硅灰石中获得高效高分散添加剂的可能性,并研究了其对细粒混凝土性能的影响。以硅灰石为原料,在阴离子表面活性剂C-3和硬脂酸钙疏水剂C-17的存在下,与石英砂以3:1的比例在球磨机中联合研磨,研制出粒径达100微米的复合微填料。在球磨机中对硅灰石和阴离子表面活性剂进行预磨,得到了模态粒径为405 nm的硅灰石悬浮液,并在浴型活化剂中进行超声处理。建立了抗压和抗弯强度与初始构件含量关系的数学模型。研究结果表明,当复合微填料在细粒混凝土成分中的含量为水泥重量的10%时,其抗折强度提高2倍,抗压强度提高1.7倍。硅灰石悬浮液使细粒混凝土的抗弯强度提高到3.1 MPa,抗压强度提高到57.8 MPa。定性x射线物相分析结果表明,硅灰石水泥石中未完全水化的alite C3S、belite C2S颗粒及其团聚体的衍射最大值总强度比对照成分降低了1.5-2倍。这很可能是由于硅灰石表面在球磨机中研磨和在浴型活化剂中超声分散后的无定形性质。此外,这些粒子是结晶的中心。它们的针状形状有助于通过结晶形成新的水泥石来加强结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EFFECT OF MICROFILLERS BASED ON NATURAL WOLLASTONITE ON PROPERTIES OF FINE-GRAINED CONCRETE
The possibility of obtaining effective highly dispersed additives from natural wollastonite is substantiated and their influence on the properties of fine-grained concrete is investigated. On the basis of wollastonite, a complex micro-filler with particle sizes up to 100 microns was developed, obtained by joint grinding with quartz sand in a 3:1 ratio in a ball mill in the presence of an anionic surfactant naphthalene-formaldehyde type C-3 and a calcium stearate hydrophobizer technical C-17. A suspension of wollastonite with a modal particle diameter of 405 nm was obtained by pre-grinding wollastonite and anionic surfactant in a ball mill, with their further ultrasonic treatment in a bath-type activator. Mathematical models of the dependence of compression and bending strength on the content of the initial components are developed. It is established that the complex microfill leads to an increase in the strength of fine-grained concrete in bending by 2 times, in compression by 1.7 times with its content in the composition of fine-grained concrete in the amount of 10% by weight of cement. Wollastonite suspension increases the bending strength of fine-grained concrete to 3.1 MPa, compression to 57.8 MPa. The results of qualitative x-ray phase analysis showed that the total intensity of diffraction maxima of not fully hydrated alite C3S, belite C2S grains and their aggregates in cement stone with wollastonite decreases by 1.5-2 times compared to the control composition. This is most likely due to the amorphous nature of the wollastonite surface after grinding in a ball mill and ultrasonic dispersion in a bath-type activator. In addition, such particles are the centers of crystallization. Their needle-like shape contributes to the reinforcement of the structure by crystallizing new formations of cement stone.
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