水力发电学报
            首 页   |   期刊介绍   |   编委会   |   投稿须知   |   下载中心   |   联系我们   |   学术规范   |   编辑部公告   |   English

水力发电学报 ›› 2025, Vol. 44 ›› Issue (10): 39-47.doi: 10.11660/slfdxb.20251004

• • 上一篇    下一篇

三轴压缩条件下水工沥青混凝土力学性能研究

  

  • 出版日期:2025-10-25 发布日期:2025-10-25

Experimental study on mechanical properties of hydraulic asphalt concrete under triaxial compression

  • Online:2025-10-25 Published:2025-10-25

摘要: 水工沥青混凝土的力学性能对沥青心墙坝的安全性和稳定性至关重要。目前,水工沥青混凝土在不同围压下的破坏机制尚不明确,围压与其变形行为之间的关系仍缺乏深入研究。此外,关于其防渗失效点的确定仍存在一定争议。本文通过试验研究了围压对水工沥青混凝土破坏模式、变形和抗压强度的影响。结果表明,试样的破坏模式与围压有关。随着围压的增加,水工沥青混凝土的峰值轴向应变和峰值侧向应变均呈上升趋势,其中峰值轴向应变最多增加了4.12倍,而峰值体积应变则趋于稳定。此外,围压对抗压强度的提高可采用幂函数进行描述。最后,试验研究发现峰值强度点为水工沥青混凝土的防渗失效点,并建立了相应的破坏准则。本文工作揭示了进水点处轴向应变与峰值应力点处轴向应变之间的关系,基于这一关系为防渗失效点的判定提供了新的依据。

关键词: 水工沥青混凝土, 围压, 破坏模式, 抗压强度, 三轴压缩试验

Abstract: The mechanical properties of hydraulic asphalt concrete (HAC) are crucial to the safety and stability of asphalt core dams. Currently, the failure mechanisms of HAC under different confining pressures haves not yet been fully understood, and the relationship between confining pressure and its deformation behavior lacks comprehensive research. And, there exists certain controversy about the determination of its anti-seepage failure point. This paper examines the effect of confining pressure on the failure mode, deformation, and compressive strength of HAC through experimental tests. The results indicate the failure mode of specimens is affected significantly by confining pressure. With an increase in confining pressure, both the peak axial strain and peak lateral strain of HAC increase, during which the former increased by 4.12 times at most, while the peak volume strain tends to be stable; The increase in compressive strength with confining pressure can be described by a power function. We suggest that the peak strength point be taken as the anti-seepage failure point of HAC, and we formulate a corresponding failure criterion. This work clarifies the relationship of the axial strain at the water-inlet point versus the axial strain at the peak-stress point, and laid a theoretical basis for determining the seepage prevention failure point.

Key words: hydraulic asphalt concrete (HAC), confining pressure, failure mode, compressive strength, triaxial compression test

京ICP备13015787号-3
版权所有 © 2013《水力发电学报》编辑部
编辑部地址:中国北京清华大学水电工程系 邮政编码:100084 电话:010-62783813
本系统由北京玛格泰克科技发展有限公司设计开发  技术支持:support@magtech.com.cn