Theoretical and numerical analysis of a new energy-absorbing rock bolt with controllable constant resistance and large displacement

被引:11
|
作者
Zhao, Baoyou [1 ]
Li, Jiawei [1 ]
Wang, Aiwen [1 ]
Xiang, Han [1 ]
Xu, Feiyang [1 ]
机构
[1] Liaoning Tech Univ, Sch Mech & Engn, POB 327,47 Zhonghua Rd, Fuxin 123000, Liaoning, Peoples R China
基金
国家重点研发计划; 中国国家自然科学基金;
关键词
Rock bolt; Compression-expansion-friction; Constant resistance; Large displacement; EXPANSION; BEHAVIOR; TUBES; SUPPORT;
D O I
10.1016/j.tust.2020.103581
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
To provide an effective support device for dealing with the instability problems in geotechnical engineering, this paper proposes a new energy-absorbing rock bolt based on the existing energy-absorbing devices, called compression-expansion-friction bolt (abbreviated as the CEF bolt). The CEF bolt mainly consists of two parts, a variable-diameter tube and a hollow cone attached at the distal end of the bar. Controllable constant resistance and large displacement are the characteristics of the CEF bolt. The constant resistance was generated by the expansion of the tube under the compression of the cone, as well as the friction between the tube and cone. And the large displacement was provided by the sliding of the cone relative to the tube. A theoretical model was developed to predict the constant resistance by taking into account the effect of material strain-hardening. Based on the energy conservation law, the effect of shear deformation was also considered. Further, the current model was formulated as three forms to consider different conditions. The predictions of the current theoretical model were in good agreement with existing experimental data. An experimentally validated finite element model was established to study the effects of main parameters on the constant resistance of the CEF bolt, such as cone angle, tube wall thickness, friction coefficient, expansion ratio and the strain-hardening property of the tube. The results of numerical simulation and theoretical analysis show that the constant resistance was directly proportional to the tube wall thickness, friction coefficient, expansion ratio and the strain-hardening modulus of the tube. But the constant resistance increased first and then decreased with respect to the cone angle, with an inflection point existed between 5 degrees and 10 degrees. The shear stress distribution and the deformation of the tube were investigated as well. According to the shear stress distribution, the zone under expasion of the tube can be divided into three characteristic areas: stress concentration area, smooth transition area, and stress re-concentration area. In addition, compared with the large number of experimentally validated numerical results, the wide applicability and sufficient accuracy of the current theoretical model were verified. By taking the derivative of the current theoretical model, the location of the inflection point can be obtained. These results can provide theoretical basis for the design and field application of the CEF bolt, as well as the similar structure.
引用
收藏
页数:17
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