粉煤灰矿渣地聚物固化长石粉路基填料水稳性与耐久性研究
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郭乔明(1976—),男,高级工程师,主要从事道路桥梁工程研究。E-mail:1617242511@qq.com

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江西省交通运输厅重点工程科技项目(2023C0014)


Research on water stability and durability of fly ash and slag geopolymer-solidified feldspar powder roadbed filler
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    摘要:

    为探究粉煤灰-矿渣地聚物固化长石粉作为路基填料的水稳性和耐久性,采用试验结合数值模拟的方法,在分析粉煤灰和矿渣的质量比以及激发剂模数对粉煤灰-矿渣地聚物砂浆、粉煤灰-矿渣地聚物固化长石粉混合料无侧限抗压强度影响规律的基础上,采用优化的配合比制备粉煤灰-矿渣地聚物固化长石粉混合料,开展了软化系数和干湿循环试验,并通过有限元模型分析了在车辆荷载作用下不同干湿循环次数对粉煤灰-矿渣地聚物固化长石粉路基沉降的影响。结果表明:地聚物掺量显著影响粉煤灰-矿渣地聚物固化长石粉混合料的水稳性与耐久性,软化系数随着地聚物掺量的提升呈增大趋势,由0.77提高到0.81;粉煤灰-矿渣地聚物固化长石粉混合料在30次干湿循环后强度损失率为3.8%;路基最大沉降量随干湿循环次数增加呈现非线性增长特征,且沉降量随深度增加逐步衰减;由于黏土矿物吸水膨胀而破坏颗粒间的胶结作用,红壤土掺量对粉煤灰-矿渣地聚物固化长石粉混合料的胶结性能有显著影响。

    Abstract:

    To explore the water stability and durability of fly ash and slag geopolymer-solidified feldspar powder roadbed filler, a method combining experiments and numerical simulation was adopted. Based on the analysis of the influence of the mass ratio of fly ash and slag and the modulus of activator on the unconfined compressive strength of fly ash and slag geopolymer mortar and fly ash and slag geopolymer-solidified feldspar powder mixture, the fly ash and slag geopolymer-solidified feldspar powder mixture was prepared with the optimized mix ratio. The softening coefficient and dry-wet cycle tests were carried out, and the finite element model was used to analyze the influence of different dry-wet cycle times on the settlement of the fly ash and slag geopolymer-solidified feldspar powder roadbed under vehicle load. The results show that the dosage of geopolymer significantly affects the water stability and durability of the fly ash and slag geopolymer-solidified feldspar powder mixture. The softening coefficient increases from 0.77 to 0.81 with the increase in the dosage of geopolymer. The loss rate of strength of the fly ash and slag geopolymer-solidified feldspar powder mixture after 30 dry-wet cycles is 3.8%. The maximum settlement of the roadbed shows a nonlinear growth trend with the increase of dry-wet cycle times, and the settlement gradually decreases with the increase in depth. Due to the water absorption and expansion of clay minerals, which destroy the cementation between particles, the dosage of red soil has a significant impact on the cementation performance of the fly ash and slag geopolymer-solidified feldspar powder mixture.

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郭乔明,陈峰,李春志,等.粉煤灰矿渣地聚物固化长石粉路基填料水稳性与耐久性研究[J].河海大学学报(自然科学版),2026,54(1):119-128, 176.(Guo Qiaoming, Chen Feng, Li Chunzhi, et al. Research on water stability and durability of fly ash and slag geopolymer-solidified feldspar powder roadbed filler[J]. Journal of Hohai University (Natural Sciences),2026,54(1):119-128, 176.(in Chinese))

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  • 收稿日期:2025-06-08
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  • 在线发布日期: 2026-01-29
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