Behaviour of yielding mechanical hybrid rockbolts under complex loading conditions

IF 7 1区 工程技术 Q1 ENGINEERING, GEOLOGICAL International Journal of Rock Mechanics and Mining Sciences Pub Date : 2024-08-28 DOI:10.1016/j.ijrmms.2024.105877
Greig Knox, John Hadjigeorgiou
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Abstract

The original “hybrid bolt” was a pragmatic solution to address installation issues in the use of resin grouted rockbolts in heavily fractured ground and the inadequate capacity of friction rock stabilisers. The original hybrid rockbolt involved installing a resin rebar in a friction rock stabiliser. The development of Yielding Mechanical Hybrid Rockbolts has been driven by efforts to eliminate the use of resin in heavily fractured ground. A typical Yielding Mechanical Hybrid Rockbolt consists of a steel tendon mechanically anchored within a friction unit. The bolt is percussion driven by the rock drill and the mechanical anchor is subsequently activated using rotation. This installation process improves the rockbolt resilience to hole closures and avoids issues associated with the use of resin. Yielding Mechanical Hybrid Rockbolts are used in both squeezing and rockburst prone ground conditions.

This paper addresses a significant knowledge gap related to the behaviour of Yielding Mechanical Hybrid Rockbolts under multiple quasi-static conditions. A comprehensive experimental program investigated the complete load displacement performance of Yielding Mechanical Hybrid Rockbolts under axial, shear, and a combination of tensile and shear loads. It was observed that the load capacity increases from axial (0°), combined axial and shear (30°), combined axial and shear (60°), and pure shear (90°). The displacement capacity, however, decreases under the same testing conditions. The results are consistent but there is a slightly greater variability as the loading angle increases from 0° to 90°. It was observed that beyond 60° loading angle there is greater variability in the results as the influence of the shear component manifests itself in greater disintegration of the concrete blocks at the shear interface.

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屈服机械混合锚杆在复杂加载条件下的行为
最初的 "混合螺栓 "是一种务实的解决方案,用于解决在严重裂缝地层中使用树脂灌浆锚杆时的安装问题,以及摩擦岩石稳定器能力不足的问题。最初的混合锚杆是在摩擦岩石稳定器中安装树脂螺纹钢筋。为了避免在严重破裂的地层中使用树脂,我们开发了 "屈服机械混合锚杆"。典型的屈服机械混合锚杆由机械锚固在摩擦单元内的钢筋组成。凿岩机通过冲击力驱动锚杆,随后通过旋转激活机械锚固。这种安装工艺提高了锚杆对孔洞封闭的适应性,并避免了与使用树脂相关的问题。本文探讨了与多种准静态条件下屈服机械混合锚杆行为相关的重大知识空白。综合实验项目研究了屈服机械混合锚杆在轴向、剪切以及拉伸和剪切组合荷载下的完整荷载位移性能。结果表明,从轴向(0°)、轴向和剪切力组合(30°)、轴向和剪切力组合(60°)到纯剪切力(90°),负载能力都在增加。然而,在相同的测试条件下,位移能力却有所下降。结果是一致的,但随着加载角度从 0°到 90°的增加,变化略大。据观察,加载角超过 60°时,结果的变化更大,因为剪切力的影响表现为剪切界面处混凝土块的解体程度更大。
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来源期刊
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.
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