后醇硬基复合改性添加剂对混凝土强度性能的影响

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING Kompleksnoe Ispolzovanie Mineralnogo Syra Pub Date : 2023-04-30 DOI:10.31643/2023/6445.34
A. Altynbekova, R. Lukpanov, D. Dyussembinov, A. Askerbekova, M. Gunasekaran
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引用次数: 0

摘要

本文介绍了复合改性添加剂(CMA)的第三阶段研究结果,在CMA的可变成分对水泥强度影响的准确性方面。本文介绍了试样的制作方法,不同成分百分比下添加剂成分的选择,以及所得结果的强度行为分析。为了评估强度的变化,制作了样品,并在7、14和28天的正常湿硬化下进行了压缩和弯曲测试。实验结果表明,增塑剂(PAB)的加入使混凝土的强度提高20%,减少了35%的用水量。与对照成分相比,改性后样品的抗压和抗弯强度在42.80 ~ 63.66 MPa和3.34 ~ 8.75 MPa范围内,效果最佳。从研究结果来看,添加剂加速了硬化,并且发现添加剂在早期和设计龄期(28 d)都有助于强度的增长。实验结果表明,从改善样品的定性特性的角度来看,增塑剂的使用是适当的。在混凝土的组成中使用CMA增加了强度,因此由CMA的作者开发的CMA改变了混凝土的结构,最重要的是,增加了混凝土的物理和机械特性。
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Effect of a complex modified additive based on post-alcohol bard on the strength behavior of concrete
The article presents the third stage of the study results of a complex modified additive (CMA), in the accuracy of the influence of the variable ingredients of CMA on the strength of cement. This article shows the methodology of making samples, the selection of additive composition at different percentages of components, and the analysis of the strength behavior of the obtained results. To evaluate the changes in strength, samples were made and tested in compression and bending at 7, 14, and 28 days of normal-moist hardening. The results of the experiment showed that the addition of plasticizers (PAB) reduces the quantity of water - 35%, by increasing the strength of concrete by 20%. Compressive and bending strength results of the modified samples showed the best results, which were in the range of 42.80-63.66 MPa and 3.34-8.75 MPa, compared with the control composition. From the results of the research, the additive accelerates hardening and it was found that the additive contributes to the growth of strength, both at an early age and at the design age (28 days). The results of the experiment showed that from the standpoint of improving the qualitative characteristics of the samples, the use of plasticizers is appropriate. The use of CMA in the composition of concrete increases the strength, and therefore developed by the authors of CMA changes the structure of concrete and most importantly, increases the physical and mechanical characteristics of concrete.
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