Investigation of the formation of microstructure and strength characteristics of slag-alkaline arbolite

B. Isakulov, H. Abdullaev, Almagul Mukasheva, Uzakbai Akishev, Gulsaira Ordabayeva
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Abstract

The creation of the slag-alkaline arbolite's structure is examined in this study, which is based on measurements of the deformation of the mortar component, contact zone, and filler. Composites made of slag and alkaline arbolite are among the lightest building materials available, with excellent sound insulation and low thermal conductivity. Standard measuring equipment and procedures for analyzing the chemical and physico-mechanical properties of slag-alkaline arbolite composites were employed during the experimental tests. All of the test samples were light concrete prisms with a cross section of 150x150 mm and a length of 600 mm. For comparison, one portion of the samples was constructed of slag-alkaline Portland cement, and the other portion was made of slag-alkaline binder with crushed cotton stem fibers as an organic component. The durability and deformability of arbolite were tested under Kazakhstan weather conditions and in standard hardening chambers. The arbolite underwent a compression stress that ranged from (0.3 to 0.75) Rbn of prismatic strength. It was discovered that the organic cellulose filler added to the slag-alkaline binder based on crushed cotton stalk fiber, which makes up to 70 % of the volume, has a major impact on the way structures are formed. The system becomes rigid, the elasticity changes, and the acoustic properties in this case will fix both physical and physico-chemical processes when a porous organic filler is added. The acquired results can be applied to the creation of efficient wall materials for civil buildings, including seismic zones
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渣碱性碳化物的形成、微观结构及强度特性研究
在本研究中,基于砂浆组分、接触区和填料的变形测量,研究了炉渣碱性碳酸盐结构的形成。由矿渣和碱性碳石制成的复合材料是最轻的建筑材料之一,具有优异的隔音性能和低导热性。试验采用了炉渣-碱性碳石复合材料化学和物理力学性能分析的标准测量设备和程序。试验试样均为轻混凝土棱柱体,截面为150x150mm,长度为600mm。为了进行比较,一部分样品由矿渣碱性硅酸盐水泥构成,另一部分样品由矿渣碱性粘结剂构成,其中粉碎的棉茎纤维为有机组分。在哈萨克斯坦的气候条件下和标准硬化室中测试了亚氏体的耐久性和变形性。弓形体承受的压缩应力范围为(0.3 ~ 0.75)Rbn的棱柱体强度。研究发现,在以碎棉秆纤维为基础的渣碱性粘结剂中添加有机纤维素填料(占体积的70%)对结构的形成方式有重要影响。当加入多孔有机填料时,系统变得刚性,弹性发生变化,在这种情况下,声学特性将固定物理和物理化学过程。所获得的结果可以应用于民用建筑高效墙体材料的创建,包括地震带
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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