Wear law of TBM cutter in the tunnel section of the second bid of the Chaoer River to Xiliao River Water Conveyance Project
GONG Qiuming1, XIE Xingfei1, HUANG Liu1, XING Hai2, WU Gensheng2
1. Key Laboratory of Urban Security and Disaster Engineering of China Ministry of Education, Beijing University of Technology, Beijing 100124, China; 2. Sinohydro Bureau 6 Co., Ltd., Shenyang 110179, Liaoning, China
Abstract: The real-time monitoring of the cutter wear was realized during TBM tunneling by installing a cutterhead working status monitoring system on the cutterhead of TBM in the tunnel section of the second bid, the Chaoer River to Xiliao River Water Conveyance Project. The whole life wear process curve for a single cutter was obtained on basis of the monitored data. The wear process of a single cutter could be divided into three stages, namely low cutter wear rate at the initiation stage, acceleration cutter wear stage and uniform cutter wear stage. The cutter edge shape had a significance impact on the cutter wear curve. Based on the rock mass conditions recorded during TBM tunneling process, combined with TBM operating parameters and monitoring data, the influence of the rock mass parameters and TBM operating parameters on the cutter wear rate was analyzed. The results showed that the cutter wear value per unit broken rock volume was suitable to measure the cutter wear rate, and the rock abrasivity, rock mass integrity and field penetration index were the key parameters to affect the cutter wear rate, which could provide a basis for the accurate cutter wear prediction model in the future research.
龚秋明, 谢兴飞, 黄流, 兴海, 吴根生. 引绰济辽工程二标隧洞段TBM滚刀磨损规律[J]. 隧道与地下工程灾害防治, 2022, 4(4): 1-10.
GONG Qiuming, XIE Xingfei, HUANG Liu, XING Hai, WU Gensheng. Wear law of TBM cutter in the tunnel section of the second bid of the Chaoer River to Xiliao River Water Conveyance Project. Hazard Control in Tunnelling and Underground Engineering, 2022, 4(4): 1-10.
[1] LIU Q S, LIU J P, PAN Y C, et al. A wear rule and cutter life prediction model of a 20-in. TBM cutter for granite: a case study of a water conveyance tunnel in China[J]. Rock Mechanics and Rock Engineering, 2017, 50(5):1303-1320. [2] 谭青,孙鑫健,夏毅敏,等. TBM盘形滚刀磨损预测模型[J]. 中南大学学报(自然科学版), 2017, 48(1):54-60. TAN Qing, SUN Xinjian, XIA Yimin, et al. A wear prediction model of disc cutter for TBM[J]. Journal of Central South University(Science and Technology), 2017, 48(1):54-60. [3] HASSANPOUR J, ROSTAMI J, AZALIS T, et al. Introduction of an empirical TBM cutter wear prediction model for pyroclastic and mafic igneous rocks: a case history of Karaj Water Conveyance Tunnel, Iran[J]. Tunnelling and Underground Space Technology, 2014, 43:222-231. [4] GEHRING K. Prognosis of advanced rates and wear for underground mechanized excavations(in German)[J]. Felsbau, 1995, 13(6):439-448. [5] 杨媛媛,黄宏伟. 围岩分类在TBM滚刀寿命预测中的应用[J]. 地下空间与工程学报, 2005, 1(5):721-724. YANG Yuanyuan, HUANG Hongwei. Application of rock mass classification in cutter life prediction of TBM[J]. Chinese Journal of Underground Space and Engineering, 2005, 1(5):721-724. [6] 杨延栋,陈馈,郭璐,等. 全断面岩石隧道掘进机滚刀磨损影响因素分析[J]. 隧道建设, 2016, 11(36):1394-1400. YANG Yandong, CHEN Kui, GUO Lu, et al. Analysis of influencing factors of wear of disc cutter of full-face hard rock tunnel boring machine[J]. Tunnel Construction, 2016, 11(36):1394-1400. [7] 吴俊,袁大军. 大连极硬岩地层复合盾构刀具磨损的分析与预测[J]. 土木工程学报, 2015, 48(增刊1):250-255. WU Jun, YUAN Dajun. Analysis and prediction on composite shield cutters wear in extremely hard rock in Dalian metro[J]. China Civil Engineering Journal, 2015, 48(Suppl.1):250-255. [8] 乔世范,王超,刘志新,等. 基于磨粒磨损机理的全断面隧道掘进机滚刀寿命预测[J]. 吉林大学学报(工学版), 2020, 50(6):2068-2073. QIAO Shifan, WANG Chao, LIU Zhixin, et al. Life prediction of tunnel boring machine hob based on abrasive wear mechanism[J]. Journal of Jilin University(Engineering and Technology Edition), 2020, 50(6): 2068-2073. [9] 王旭,赵羽,张宝刚,等. TBM滚刀刀圈磨损机理研究[J]. 现代隧道技术, 2010, 47(5):15-19. WANG Xu, ZHAO Yu, ZHANG Baogang, et al. Research on the ring wear mechanism of TBM disc cutter[J]. Modern Tunnelling Technology, 2010, 47(5):15-19. [10] 李凯磊. TBM刀具消耗分析研究[D]. 石家庄: 石家庄铁道大学, 2015. LI Kailei. Research on TBM disc cutter consumption analysis[D]. Shijiazhuang: Shijiazhuang Tiedao University, 2015. [11] SHANANAN A. Cutter instrumentation system for tunnel boring machines[J]. North American Tunneling 2010 Proceedings, 2010:110-115. [12] 龚秋明,王庆欢,王杜娟,等. 盾构隧道施工刀盘状态实时监测系统研制[J]. 现代隧道技术, 2021, 58(2):41-50. GONG Qiuming, WANG Qinghuan, WANG Dujuan, et al. Development of a real-time monitoring system of cutterhead conditions in shield tunnelling[J]. Modern Tunnelling Technology, 2021, 58(2):41-50. [13] GONG Q M, WU F, WANG D J, et al. Development and application of cutterhead working status monitoring system for shield TBM tunnelling[J]. Rock Mechanics and Rock Engineering, 2021, 54(1):1731-1757. [14] 李建斌,龚秋明,刘斌. 隧道掘进机辅助智能化施工技术[M]. 北京: 科学出版社, 2020. [15] GONG Q M, ZHAO J, JIANG Y S. In situ TBM penetration tests and rock mass boreability analysis in hard rock tunnels[J]. Tunnelling and Underground Space Technology, 2007, 22(3):303-316. [16] HAMILTON W, DOLLINGER G. Optimizing tunnel boring machine and cutter design for greater boreability[C] //Proceedings of the Rapid Excavation and Tunneling Conference. Atlanta, USA: [s. n.] , 1979:280-296.