Mechanical performance analysis of fully grouted bolts considering yield and hardening characteristics

IF 7.5 1区工程技术 Q1 ENGINEERING, GEOLOGICAL

International Journal of Rock Mechanics and Mining Sciences Pub Date : 2025-07-04 DOI:10.1016/j.ijrmms.2025.106197

Akang Li , Hua Cheng , Zhongwen Yue , Chuanxin Rong , Peng Wang , Jian Lin

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引用次数: 0

Abstract

This study presents a coupling numerical method to study the mechanical performance of fully grouted bolts under the yield state. In this study, the tri-linear bond-slip model was utilized for modeling the damage characteristics of the bolt-grout interface and the yield characteristic of bolt was simulated using the bi-linear plastic-hardening model. A series of pull-out tests were conducted to validate the efficacy of this numerical model. Subsequently, this numerical model was adopted to analyze the mechanical performance of fully grouted bolts in high-stress tunnel by considering the effects of the support timing, dilation angle and endplate force. The results reveal that the installation timing of bolts depends not only on the bonding strength at the anchoring interface, but also on the yield strength of bolts. Installing the bolts too early may cause the yield failure of the bolts, resulting in a reduction in the support capacity of the bolts. In addition, the influence of the dilation angle on the mechanical behavior of bolts is also related to the installation timing of the bolts. The endplate can effectively enhance the support capability of the bolts. However, once the bolt enters the yielding state, the endplate only has a slight impact on the support capability of the bolts. This study offers meaningful insights into the mechanical behavior of fully grouted bolts under the yielding state, which contributes to uncovering the interaction mechanism of the bolt-grout interface when bolts yield and providing a guidance for the design of fully grouted bolts in high-stress tunnel.

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考虑屈服和硬化特性的全注浆螺栓力学性能分析

提出了一种耦合数值方法来研究屈服状态下全注浆锚杆的力学性能。本研究采用三线性粘结-滑移模型模拟锚杆-浆液界面的损伤特征，采用双线塑性硬化模型模拟锚杆的屈服特性。为了验证该数值模型的有效性，进行了一系列的拉拔试验。随后，采用该数值模型对高应力隧洞中全注浆锚杆的受力性能进行了分析，考虑了支护时机、膨胀角和端板受力的影响。结果表明：锚杆的安装时机不仅取决于锚固界面的粘结强度，还与锚杆的屈服强度有关。过早安装螺栓可能会导致螺栓屈服失效，从而降低螺栓的支撑能力。此外，膨胀角对螺栓力学性能的影响还与螺栓的安装时机有关。端板可以有效地提高螺栓的支护能力。而一旦锚杆进入屈服状态，端板对锚杆的支护能力影响不大。本研究对全注浆锚杆屈服状态下的力学行为有重要意义，有助于揭示锚杆屈服时锚杆-浆液界面的相互作用机理，为高应力隧道中全注浆锚杆的设计提供指导。

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来源期刊

International Journal of Rock Mechanics and Mining Sciences 工程技术-工程：地质

CiteScore

14.00

自引率

5.60%

发文量

196

审稿时长

18 weeks

期刊介绍： The International Journal of Rock Mechanics and Mining Sciences focuses on original research, new developments, site measurements, and case studies within the fields of rock mechanics and rock engineering. Serving as an international platform, it showcases high-quality papers addressing rock mechanics and the application of its principles and techniques in mining and civil engineering projects situated on or within rock masses. These projects encompass a wide range, including slopes, open-pit mines, quarries, shafts, tunnels, caverns, underground mines, metro systems, dams, hydro-electric stations, geothermal energy, petroleum engineering, and radioactive waste disposal. The journal welcomes submissions on various topics, with particular interest in theoretical advancements, analytical and numerical methods, rock testing, site investigation, and case studies.