干湿循环作用下有机硅改性炭质泥岩的崩解特性及抑崩解机制
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作者:
作者单位:

1.长沙理工大学,土木与环境工程学院,长沙 410114;2.长沙理工大学,交通学院,长沙 410114;3.中建五局第三建设有限公司,长沙 410114;4.广西交科集团有限公司,南宁 530007

作者简介:

何志军(1985- ),男,博士生,主要从事软岩边坡防控减灾、特殊土路基处理研究,E-mail:504090410@qq.com。
HE Zhijun (1985- ), PhD candidate, main research interests: soft rock slope prevention and special soil foundation treatment, E-mail: 504090410@qq.com.

通讯作者:

查焕奕(通信作者),男,博士(后),E-mail:bsh028@csust.edu.cn。

中图分类号:

TU447

基金项目:

国家自然科学基金(52378440、52078066、52078067);交通运输行业重点科技项目(2022-MS1-032);湖南省自然科学基金杰出青年基金(2023JJ10045);长沙市杰出创新青年培养计划(kq2305023);长沙理工大学“双一流”科学研究国际合作拓展项目(2019IC04);桥梁工程安全控制教育部重点实验室开放基金(15KB01)


Disintegration characteristics and inhibition mechanism of organosilicon-modified carbonaceous mudstone under dry and wet cycling effects
Author:
Affiliation:

1.School of Civil and Environmental Engineering Changsha University of Science & Technology, Changsha 410114, P. R. China;2.School of Transportation, Changsha University of Science & Technology, Changsha 410114, P. R. China;3.The 3rd Construction Co., Ltd. of China Construction 5th Engineering Bureau, Changsha 410114, P. R. China;4.Guangxi Transportation Science and Technology Group Co., Ltd., Nanning 530007, P. R. China

Fund Project:

National Natural Science Foundation of China (Nos. 52378440, 52078066, 52078067); The Key Science and Technology Program in the Transportation Industry (No. 2022-MS1-032); The Natural Science Foundation of Hunan Province Outstanding Youth Fund (No. 2023JJ10045); The Outstanding Innovative Youth Training Program of Changsha City (No. kq2305023); The “Double First-class” International Cooperation and Expansion Program for Scientific Research of Changsha University of Science & Technology (No. 2019IC04); The Open Fund of Key Laboratory of Bridge Engineering Safety Control, Ministry of Education (No. 15KB01).

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    摘要:

    为抑制干湿循环下炭质泥岩崩解与强度劣化,开展干湿循环作用下有机硅改性炭质泥岩无侧限抗压强度及崩解试验,研究干湿循环次数、有机硅掺量对改性炭质泥岩无侧限抗压强度、粒径级配、不均匀系数及曲率系数等参数的影响,明确有机硅对炭质泥岩强度劣化及崩解特性的抑制作用,并通过扫描电镜分析有机硅改性炭质泥岩在干湿循环作用下的微观结构变化规律,揭示其抑崩解机制。结果表明:改性炭质泥岩的无侧限抗压强度与有机硅掺量呈正相关,与干湿循环次数呈负相关;有机硅的团聚作用能有效增大炭质泥岩粒径,掺入有机硅后,改性炭质泥岩大于2 mm的粗颗粒含量、最大粒径Dmax和最小粒径Dmin均显著增大,且崩解过程中[10 mm, 20 mm)、[5 mm, 10 mm)和[2 mm, 5 mm)粒组的改性炭质泥岩颗粒含量变化最剧烈,但有机硅掺量越多,粒径变化幅度越小;改性炭质泥岩的中值粒径d50、Weibull分布参数(λ、k)分形维数D、耐崩解指数Idn与崩解比Dr等参数均与有机硅掺量呈正相关,与干湿循环次数呈负相关,而不均匀系数Cu的变化规律则与之相反。有机硅主要通过网状结构交联炭质泥岩颗粒并在其表层形成疏水膜等作用抑制其强度劣化及崩解。

    Abstract:

    To reduce the degradation of strength and prevent disintegration of carbonaceous mudstone under wet and dry cycling, tests on the unconfined compressive strength (UCS) and disintegration of silicone-modified carbonaceous mudstone under wet and dry cycling were carried out. The effects of the number of dry and wet cycles and the amount of organosilicon on the UCS, grain size gradation, inhomogeneity coefficient and curvature coefficient of the modified carbonaceous mudstone were studied, and the inhibition effect of organosilicon on the strength deterioration and disintegration characteristics of the charcoal mudstone was clarified. The changing pattern of microstructure of organosilicon-modified carbonaceous mudstone was also analyzed by scanning electron microscopy (SEM) to reveal its mechanism of inhibiting disintegration. The results showed that the pattern of modified carbonaceous mudstone was positively correlated with the organosilicon content and negatively correlated with the number of wet and dry cycles. Organosilicon can effectively increase the grain size of carbonaceous mudstone, and the content of coarse particles larger than 2 mm, the maximum grain size(Dmax) and the minimum grain size (Dmin) of modified carbonaceous mudstone were significantly increased after the incorporation of organosilicon. Meanwhile, the particle content of modified carbonaceous mudstone in the [10 mm, 20 mm), [5 mm, 10 mm) and [2 mm, 5 mm) grain groups changed most drastically during the disintegration process, but the greater the organosilicon content, the smaller the magnitude of the change in grain size. Moreover, the higher the organosilicon content, the smaller the change in particle size. The median grain size (d50), Weibull distribution parameters (λ, k), fractal dimension (D), disintegration resistance index (Idn) and disintegration ratio (Dr) of modified carbonaceous mudstone were positively correlated with organosilicon content and negatively correlated with the number of wet and dry cycles. However, the variation rule of the inhomogeneity coefficient (Cu) is opposite. Organosilicone mainly inhibits the strength deterioration and disintegration of carbonaceous mudstone particles by crosslinking them via a network structure and the formation of a hydrophobic film on the surface layer.

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何志军,曾铃,查焕奕,付宏渊,陈镜丞,张红日.干湿循环作用下有机硅改性炭质泥岩的崩解特性及抑崩解机制[J].土木与环境工程学报(中英文),2026,48(4):44-54. HE Zhijun, ZENG Ling, ZHA Huanyi, FU Hongyuan, CHEN Jingcheng, ZHANG Hongri. Disintegration characteristics and inhibition mechanism of organosilicon-modified carbonaceous mudstone under dry and wet cycling effects[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2026,48(4):44-54.10.11835/j. issn.2096-6717.2024.066

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  • 收稿日期:2024-05-13
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  • 在线发布日期: 2026-07-08
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