超分散粉砂岩改性硬石膏粘结剂的力学性能及结构研究

Y. Tokarev, G. Yakovlev, Z. Saidova, V. Grakhov, A. Buryanov, A.E.M.M. Elrefai
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引用次数: 3

摘要

本研究致力于对基于天然硬石膏的粘合剂的物理力学性能和结构进行改性。将沉积岩粉砂岩作为矿物超细添加剂添加到组合物中。铝硅酸盐矿物的存在证明,细磨粉砂岩可以作为硬石膏粘结剂组成中的矿物添加剂,加速石膏新地层的结晶,致密石膏石的结构。首次展示了使用磷酸钠和磷酸铵作为硬石膏粘合剂的硬化活化剂的有效性。粉砂岩以0至5%的量添加到组合物中,可使强度提高40%,这是由于粉砂岩颗粒作为“结晶中心”的作用,并在其表面形成二水硫酸钙的结晶水合物。煅烧粉砂岩和石灰的联合作用导致强度增加45%,这是由于偏高岭土和石灰相互作用过程中形成的新水化产物的额外压实。微观结构分析表明,与仅使用天然粉砂岩的样品相比,使用煅烧粉砂岩和石灰的样品具有更致密、更均匀的结构,孔隙率更低。
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A STUDY ON MECHANICAL PROPERTIES AND STRUCTURE OF ANHYDRITE BINDER MODIFIED BY ULTRA-DISPERSED SILTSTONE
This research is devoted to modification of physical and mechanical properties and structure of a binder based on natural anhydrite. A sedimentary rock siltstone was added into the composition as a mineral ultrafine additive. The presence of aluminosilicate minerals proves that finely ground siltstone can be used as a mineral additive in the composition of the anhydrite binder, accelerating crystallization of gypsum new formations and densifying the structure of gypsum stone. For the first time, the effectiveness of using sodium and ammonium phosphates as hardening activators of an anhydrite binder was shown. Siltstone, added to the composition in the amount from 0 to 5%, lead to up to 40% increase in strength, which is due to the action of siltstone particles as “crystallization centers” and formation of crystalline hydrates of calcium sulfate dihydrate on their surface. Combined action of calcined siltstone and lime leads to a 45% increase in strength due to the additional compaction by new hydration products formed in the course of metakaolin and lime interaction. Microstructural analysis showed that samples with calcined siltstone and lime have a more dense and uniform structure with a lower porosity, compared to those with only natural siltstone.
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审稿时长
15 weeks
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