| Citation: |
XIAO Xiaochun,XU Zhengmao,FAN Yufeng,et al. Research status and prospects of energy-absorbing anchor support equipment[J]. Coal Science and Technology,2025,53(1):54−64. DOI: 10.12438/cst.2024-0443
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Energy-absorbing support is an important prevention and control technology in underground rock engineering to enhance the stability of surrounding rock and prevent disasters such as rock burst. The core principle of energy-absorbing support technology is to effectively absorb or dissipate energy through specific structural designs when the rock mass undergoes displacement or deformation, thereby reducing engineering failure and accidents caused by impact loads. Energy-absorbing bolts are a common form of energy-absorbing support. This technology combines the surface surrounding rock with the deep stable rock mass through bolts and generates prestress within the surrounding rock to absorb or dissipate energy and prevent mine disasters. This flexible support method is suitable for the support of various environments in tunnel and has been widely used in the prevention and control of mine disasters. This investigation reviews over 30 representative energy-absorbing bolt designs since 1968, classifying them into two major types: structure and material. It focuses on analyzing the working principles and design advantages of eight typical energy-absorbing bolts and points out the deficiencies in the application of existing energy-absorbing bolt support in terms of safety and intelligence. Combining the valuable research results of predecessors with the current demands of high-strength and intelligent support in deep mines, an intelligent early warning negative Poisson’s ratio structure energy-absorbing bolt is proposed. This bolt utilizes a negative Poisson’s ratio energy-absorbing structure to achieve an increased resistance effect and has the characteristics of bidirectional constant resistance energy absorption and bidirectional monitoring and early warning. It can meet the demands of strong resistance support and visual early warning in complex nonlinear soft rock tunnel, which is conducive to accelerating the integration of support systems and promoting the development of safe and intelligent mines. Finally, this study provides an outlook on the optimization and innovation trends of energy-absorbing bolt support equipment.
| [1] |
何满潮. 深部的概念体系及工程评价指标[J]. 岩石力学与工程学报,2005,24(16):2854−2858. doi: 10.3321/j.issn:1000-6915.2005.16.007
HE Manchao. Conception system and evaluation indexes for deep engineering[J]. Chinese Journal of Rock Mechanics and Engineering,2005,24(16):2854−2858. doi: 10.3321/j.issn:1000-6915.2005.16.007
|
| [2] |
姜福兴,张翔,朱斯陶. 煤矿冲击地压防治体系中的关键问题探讨[J]. 煤炭科学技术,2023,51(1):203−213.
JIANG Fuxing,ZHANG Xiang,ZHU Sitao. Discussion on key problems in prevention and control system of coal mine rock burst[J]. Coal Science and Technology,2023,51(1):203−213.
|
| [3] |
GUO Z B,WANG Q,YIN S Y,et al. The creep compaction behavior of crushed mudstones under the step loading in underground mining[J]. International Journal of Coal Science & Technology,2019,6(3):408−418.
|
| [4] |
韩军,李广汉,郭宝龙,等. 巷帮煤体整体滑脱型冲击地压锚杆防冲支护原理及工程实践[J]. 煤炭科学技术,2024,52(1):117−125.
HAN Jun,LI Guanghan,GUO Baolong,et al. Design principle and engineering practice of rock bolting to prevent coal bump from rib coal massive slippage[J]. Coal Science and Technology,2024,52(1):117−125.
|
| [5] |
肖晓春,刘海燕,丁鑫,等. 单向卸载条件下组合煤岩力学特性及声发射演化规律[J]. 煤炭科学技术,2023,51(11):71−83.
XIAO Xiaochun,LIU Haiyan,DING Xin,et al. Mechanical properties and acoustic emission evolution of coal-rock combination under unidirectional unloading condition[J]. Coal Science and Technology,2023,51(11):71−83.
|
| [6] |
何满潮,郭志飚. 恒阻大变形锚杆力学特性及其工程应用[J]. 岩石力学与工程学报,2014,33(7):1297−1308.
HE Manchao,GUO Zhibiao. Mechanical property and engineering application of anchor bolt with constant resistance and large deformation[J]. Chinese Journal of Rock Mechanics and Engineering,2014,33(7):1297−1308.
|
| [7] |
肖晓春,朱恒,徐军,等. 含泡沫铝填充多胞方管吸能立柱防冲特性数值研究[J]. 煤炭科学技术,2023,51(10):302−311.
XIAO Xiaochun,ZHU Heng,XU Jun,et al. Numerical study on anti-impact characteristics of energy absorbing column with multicellular square tube filled with aluminum foam[J]. Coal Science and Technology,2023,51(10):302−311.
|
| [8] |
曾奇. 我国煤巷机械化掘进机现状及锚杆支护技术[J]. 当代化工研究,2021(14):71−72. doi: 10.3969/j.issn.1672-8114.2021.14.033
ZENG Qi. Present situation and bolt support technology of mechanized roadheader in coal roadway in China[J]. Modern Chemical Research,2021(14):71−72. doi: 10.3969/j.issn.1672-8114.2021.14.033
|
| [9] |
王贺,陈何,曹辉. 我国大变形锚杆研究现状及发展趋势[J]. 黄金科学技术,2020,28(1):112−123.
WANG He,CHEN He,CAO Hui. Research status and trends of large deformation rock bolts in China[J]. Gold Science and Technology,2020,28(1):112−123.
|
| [10] |
康红普. 煤矿巷道支护与加固材料的发展及展望[J]. 煤炭科学技术,2021,49(4):1−11.
KANG Hongpu. Development and prospects of support and reinforcement materials for coal mine roadways[J]. Coal Science and Technology,2021,49(4):1−11.
|
| [11] |
郭泽洋,王斌,宁勇. 可伸长让压锚杆的研究现状及展望[J]. 采矿技术,2019,19(3):38−42. doi: 10.3969/j.issn.1671-2900.2019.03.014
GUO Zeyang,WANG Bin,NING Yong. Research status and outlook of extendable letting pressure anchors[J]. Mining Technology,2019,19(3):38−42. doi: 10.3969/j.issn.1671-2900.2019.03.014
|
| [12] |
黄勇,孙淼,王爱文,等. 山西某矿2#煤层锚网支护参数设计优化研究[J]. 煤炭技术,2023,42(5):34−39.
HUANG Yong,SUN Miao,WANG Aiwen,et al. Research on design optimization of No. 2 coal seam bolt and mesh support parameters in a mine in Shanxi[J]. Coal Technology,2023,42(5):34−39.
|
| [13] |
COOK N G W,ORTLEPP W D. A yielding rockbolt[J]. Chamber of Mines of South Africa. Research Organization Bulletin,1968,8(14):19−24.
|
| [14] |
CHARETTE F. Performance of Swellex rock bolts under dynamic loading conditions[C]//Second International Seminar on Deep and High Stress Mining,Johannesburg:The South African Institute of Mining and Metallurgy. 2004:95−106.
|
| [15] |
WINDSOR C R. Cable bolting for underground and surface excavations[J]. International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts,1993,30(6):371−371.
|
| [16] |
HYETT A,BAWDEN W,HEDRICK N,et al. A laboratory evaluation of the 25 mm Garford bulb anchor for cable bolt reinforcement[J]. Cim Bulletin,1995,88:54−59.
|
| [17] |
LI L,KONG X S,YANG W,et al. A study of anchor cable and C-shaped tube support for the roadway of Shuangliu coal mine[J]. Symmetry,2023,15(9):1757. doi: 10.3390/sym15091757
|
| [18] |
何亚男. 可拉伸锚杆的基本原理与设计[J]. 矿山压力,1987,4(2):16−19,2−65.
HE Yanan. Basic principles and design of tensile anchors[J]. Journal of Mining & Safety Engineering,1987,4(2):16−19,2−65.
|
| [19] |
宋德彰,孙钧. 锚喷支护力学机理的研究[J]. 岩石力学与工程学报,1991,10(2):197−204.
SONG Dezhang,SUN Jun. Study on the mechanical mechanism of shotcrete-rockbolt support system[J]. Chinese Journal of Rock Mechanics and Engineering,1991,10(2):197−204.
|
| [20] |
何亚男,侯朝烱. 改进型杆体可拉伸锚杆:CN2081884U[P]. 1991−07−31.
|
| [21] |
高延法,张文泉,肖洪天,等. 柔刚性可伸缩锚杆:CN2138193[P]. 1993−07−14.
|
| [22] |
冯志刚,李夕兵. 可伸缩胀管式锚杆在大变形巷道支护中的应用[J]. 湖南有色金属,1994,10(2):65−67.
FENG Zhigang,LI Xibing. Application of expandable expansion tube anchor in the support of large deformation roadway[J]. Hunan Nonferrous Metals,1994,10(2):65−67.
|
| [23] |
覃卫民,葛修润,黄智慧,等. 一种砂固结内锚头预应力锚杆及其锚固方法:CN1259499C[P]. 2006−06−14.
|
| [24] |
GALLER R,GSCHWANDTNER G,DOUCET C. Roofex bolt and its application in tunnelling by dealing with high stress ground conditions[C]// Helsinki:World Tunnel Congress 2011,2011
|
| [25] |
李铀,朱维申,白世伟,等. 一种适用于大变形支护的新型可伸长锚杆[J]. 中南公路工程,2007,32(2):103−105,127.
LI You,ZHU Weishen,BAI Shiwei,et al. New extensible bolt suitable for large deformation support[J]. Journal of Central South Highway Engineering,2007,32(2):103−105,127.
|
| [26] |
潘一山,朱小景,唐治,等. 一种矿用让位摩擦式吸能防冲锚杆:CN105822332B[P]. 2018−01−30.
|
| [27] |
王斌,李夕兵,马春德,等. 岩爆灾害控制的动静组合支护原理及初步应用[J]. 岩石力学与工程学报,2014,33(6):1169−1178.
WANG Bin,LI Xibing,MA Chunde,et al. Principle and preliminary application of combined static-dynamic support to rockburst disaster controlling[J]. Chinese Journal of Rock Mechanics and Engineering,2014,33(6):1169−1178.
|
| [28] |
韩军,王鑫,马双文,等. 适用于围岩大变形的螺纹钢锚杆设计及工程实践[J]. 煤炭学报,2021,46(12):3745−3755.
HAN Jun,WANG Xin,MA Shuangwen,et al. Design and engineering practice of rebar bolt for large deformation roadway[J]. Journal of China Coal Society,2021,46(12):3745−3755.
|
| [29] |
唐治,潘一山,徐兴强,等. 一种让位缓冲吸能防冲锚杆:CN108119175B[P]. 2019−11−05.
|
| [30] |
齐永正,杨子明,金光球,等. 一种负泊松比锚杆支护装置:CN115045699A[P]. 2022−09−13.
|
| [31] |
王阁. 预应力让压锚杆的数值模拟研究及其应用[D]. 青岛:山东科技大学,2007.
WANG Ge. Numerical simulation of pre-stressed yield bolt support and its application[D]. Qingdao:Shandong University of Science and Technology,2007.
|
| [32] |
赵宝友,李佳伟,张立新,等. 一种扩径挤压摩擦锚杆锚索结构:CN109026103B[P]. 2020−03−17.
|
| [33] |
CHEN Y. Experimental study and stress analysis of rock bolt anchorage performance[J]. Journal of Rock Mechanics and Geotechnical Engineering,2014,6(5):428−437. doi: 10.1016/j.jrmge.2014.06.002
|
| [34] |
钟紫蓝,赵鑫,李锦强,等. 一种基于负泊松比结构理论的锚杆装置及其应用:CN116145657A[P]. 2023−05−23.
|
| [35] |
CHUNLIN LI C. A new energy-absorbing bolt for rock support in high stress rock masses[J]. International Journal of Rock Mechanics and Mining Sciences,2010,47(3):396−404. doi: 10.1016/j.ijrmms.2010.01.005
|
| [36] |
KNOX G,BERGHORST A,CROMPTON B. The relationship between the magnitude of impact velocity per impulse and cumulative absorbed energy capacity of a rock bolt[C]// Sydney:Proceedings of the Fourth Australasian Ground Control in Mining Conference Proceedings,2018
|
| [37] |
李鹏. 一种吸能-抗震锚杆:CN207609439U[P]. 2018−07−13.
|
| [38] |
唐治,吴志伟,齐晓苗,等. 一种大变形玻璃钢锚杆:CN218293629U[P]. 2023−01−13.
|
| [39] |
JAGER A J. Two new support units for the control of rock-burst damage[C] // Proceedings of the International Symposium on Rock Support. Rotterdam:A A Balkema Publishers,1992.
|
| [40] |
王炯. 唐口煤矿深部岩巷恒阻大变形支护机理与应用研究[D]. 北京:中国矿业大学(北京),2011.
WANG Jiong. Large deformation with constant-resistance supporting mechanism and its application of deep rocky tunnel in Tangkou coal mine[D]. Beijing:China University of Mining & Technology-Beijing,2011.
|
| [41] |
О·Г·萨赫诺,周蒲英. 一种新型的让压锚杆[J]. 中州煤炭,1987,9(5):42−43.
О-Г-Sakhno,ZHOU Puying. A new type of pressurized anchor[J]. Zhongzhou Coal,1987,9(5):42−43.
|
| [42] |
宋战平,许晓静,刘伟,等. 吸能锚杆及其静动力试验方法研究综述[J]. 现代隧道技术,2023,60(3):1−13.
SONG Zhanping,XU Xiaojing,LIU Wei,et al. A review of study on energy-absorbing rockbolts and static/dynamic test methods[J]. Modern Tunnelling Technology,2023,60(3):1−13.
|
| [43] |
何满潮. 工程地质力学的挑战与未来[J]. 工程地质学报,2014,22(4):543−556.
HE Manchao. The challenges and future of engineering geomechanics[J]. Journal of Engineering Geology,2014,22(4):543−556.
|
| [44] |
陶志刚,谢迪,隋麒儒,等. 复杂地质条件下隧道围岩大变形负泊松比锚索主动支护方法及控制效果研究[J]. 岩石力学与工程学报,2024,43(2):275−286.
TAO Zhigang,XIE Di,SUI Qiru,et al. Study on active support method and control effect of NPR anchor cables for large deformation of tunnel surrounding rock under complex geological conditions[J]. Chinese Journal of Rock Mechanics and Engineering,2024,43(2):275−286.
|
| [45] |
张明. 深部巷道新型螺纹钢锚杆吸能机理及锚固界面强化研究[D]. 阜新:辽宁工程技术大学,2022.
ZHANG Ming. Study on energy-absorbing mechanism and anchorage interface strengthening of novel rebar bolt in deep roadway[D]. Fuxin:Liaoning Technical University,2022.
|
| [46] |
郑是立,刘泉声,薛俊华. 增阻高强预应力锚杆:CN2707966[P]. 2005−07−06.
|
| [47] |
石振明,谢可禄,俞松波,等. 消能抗震锚杆的研究进展与思考[J]. 地球科学,2024,49(2):522−537.
SHI Zhenming,XIE Kelu,YU Songbo,et al. Research advance and thinking on energy dissipation and seismic bolts[J]. Earth Science,2024,49(2):522−537.
|
| [48] |
潘一山,王爱文,孟村影,等. 一种挤压、摩擦式吸能锚杆:CN104265339B[P]. 2016−08−24.
|
| [49] |
张杰,荣传新,曹祎,等. 一种应用于巷道围岩大变形的双向恒阻监测锚杆:CN218581627U[P]. 2023−03−07.
|
| [50] |
ORTLEEP W D,BORNMAN J J,ERASMUS P N. The durabar-ayieldable support tendon-design rational and laboratory re-sults[C] // Rockbursts and Seismicity in Mines(RaSiM5). Johannesburg:South African Institution of Mining and Metallurgy,2001:263−266.
|
| [51] |
KANG H P,YANG J H,MENG X Z. Tests and analysis of mechanical behaviours of rock bolt components for China’s coal mine roadways[J]. Journal of Rock Mechanics and Geotechnical Engineering,2015,7(1):14−26. doi: 10.1016/j.jrmge.2014.12.002
|
| [52] |
王爱文,高乾书,代连朋,等. 锚杆静−动力学特性及其冲击适用性[J]. 煤炭学报,2018,43(11):2999−3006.
WANG Aiwen,GAO Qianshu,DAI Lianpeng,et al. Static and dynamic performance of rebar bolts and its adaptability under impact loading[J]. Journal of China Coal Society,2018,43(11):2999−3006.
|
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