基于土工聚合反应的冷拌材料强度特性和机理研究

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Junying Fan, Hao Liang, Zhiping Sun, Zhao Chen
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引用次数: 0

摘要

冷拌沥青是一种节能环保的路面材料,但其早期强度不足。研究了用地聚合物添加剂对冷拌沥青进行改性后的强度增强。在不同的地聚合物含量、养护时间和水浸条件下,通过马歇尔稳定性测试评估宏观强度。微观分析包括荧光显微镜来辨别地聚合物-沥青的相互作用和离散单元建模来模拟压缩过程。结果表明:随着地聚合物含量的增加,稳定性先升后降,基础沥青与添加剂的最佳配比为4:3;稳定性在固化前3天迅速增加,之后以较慢的速度积累。荧光显微镜显示,地聚合物将沥青粘合在骨料表面。模型显示地聚合物抵抗垂直荷载并约束骨料。总而言之,地聚合通过改善附着力和产生包含聚集体颗粒的刚性3D网络来增强冷混合强度。这些发现对利用地聚合物添加剂配制耐久冷拌沥青具有指导意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation on strength characteristics and mechanism of cold mix based on geopolymerization reaction
Cold mix asphalt is an energy-efficient and eco-friendly pavement material, yet its early strength is deficient. This study investigated the strength augment of cold mix asphalt through modification with geopolymer additives. Macro-strength was assessed via Marshall stability testing under varied geopolymer contents, curing durations, and water immersion conditions. Microscale analysis encompassed fluorescence microscopy to discern geopolymer-asphalt interactions and discrete element modeling to simulate the compression process. Results showed that stability rose and then fell as geopolymer content increased, with an optimal ratio of 4:3 between base asphalt and additive. Stability increased rapidly in the first 3 days of curing and accumulated at a slower rate afterwards. Fluorescence microscopy revealed that geopolymer bonded the asphalt to the aggregate surfaces. Modeling exhibited geopolymer resisted vertical loads and confined the aggregate. In summation, geopolymerization enhances cold mix strength by improving adhesion and generating a rigid 3D network encompassing aggregate particles. The discoveries provide guidance on formulating durable cold mix asphalt utilizing geopolymer additives.
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来源期刊
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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