TBM滚刀磨损研究现状及展望
摘要:机械制造技术和经济的发展,促使越来越多的水利、交通和矿山采用全断面隧道掘进机(TBM)进行隧(巷)洞(道)的开挖。TBM刀具的磨损对掘进效率和成本有很大影响,刀具磨损研究对提高刀具耐磨性、提高刀具磨损监测和更换的及时性以及合理预测并控制掘进工期和成本都具有重要意义。从TBM刀具磨损的形式、影响因素、监测方法和滚刀磨损定量预测模型几个方面,综述了国内外TBM掘进过程中滚刀磨损检测与预测相关的研究进展,提出了TBM刀具耐磨性提升、刀具磨损检测和磨损定量预测的研究方向。
Abstract:With the development of machinery manufacturing technology and economy, more and more project of water conservancy, transportation and mines use full face tunnel boring machine (TBM) to excavate tunnels. The wear of TBM cutter has great influences on the tunnelling efficiency and costs. The study on cutter wear is significant to improve the wear resistance of cutter and the timeliness of wear monitoring, reasonably predict the tunnelling period and cost, and take effective measures to shorten the construction period and reduce the project cost. The research of the types, influencing factors, monitoring methods and prediction models of cutter wear are reviewed. The direction for further study on the cutter wear is provided.
中文标题:
TBM滚刀磨损研究现状及展望
Current Research and Prospect on Cutter Wear of Tunnelling Boring Machine
作者:
黄丹1, 2,,马昊1, 2,杨小聪1, 2,李玉选1, 2,郑志杰1, 2
Huang Dan1, 2,,Ma Hao1, 2,Yang Xiaocong1, 2,Li Yuxuan1, 2,Zheng Zhijie1, 2
作者简介:黄 丹,男,1987年生,汉族,博士,主要从事机械采掘科研设计工作。E-mail:huangdan@bgrimm.com
通讯地址:
1.矿冶科技集团有限公司,北京 100160 2.国家金属矿绿色开采国际联合研究中心,北京 102628
1.BGRIMMTechnologyGroup,Beijing100160,China 2.NationalCenterforInternationalJointResearchonGreenMetalMining,Beijing102628,China
中图分类号:U 455
doi:10.3969/j.issn.1007-2993.2023.03.001
出版物:岩土工程技术
收稿日期:2022-01-04
修回日期:2022-03-16
录用日期:2022-08-25
网络出版日期:2023-06-08
刊出日期:2023-06-08
关键词:TBM,滚刀磨损形式,磨损影响因素,磨损监测,磨损预测模型
Key words:TBM,cutter wear form,influencing factors of cutter wear,monitoring of cutter wear,prediction models of cutter wear
文档包含图片数量:图片(4)张
文档包含表格数量:表格(2)个
参考文献:
[1]张镜剑,傅冰骏. 隧道掘进机在我国应用的进展[J]. 岩石力学与工程学报,2007,26(2):226-238. doi: 10.3321/j.issn:1000-6915.2007.02.002
[2]万治昌,沙明元,周雁领. 盘形滚刀的使用与研究(1)—TB880E型掘进机在秦岭隧道施工中的应用[J]. 现代隧道技术,2002,39(5):1-11. doi: 10.3969/j.issn.1009-6582.2002.05.001
[3]刘海龙. 硬岩隧道掘进机滚刀磨损机理研究[D]. 天津: 天津大学, 2014.
[4]任栋杰. 土岩转换地层盾构隧道滚刀磨损机理及预测模型研究[D]. 上海: 上海交通大学, 2019.
[5]王 贺. 复合地层TBM破岩过程滚刀磨损机理及掘进效率研究[D]. 重庆: 重庆大学, 2016.
[6]严 辉. 盾构隧道施工中刀盘泥饼的形成机理和防治措施[J]. 现代隧道技术,2007,44(4):24-27. doi: 10.3969/j.issn.1009-6582.2007.04.006
[7]ZHAO J,GONG Q M,EISENSTEN Z,et al. Tunnelling through a frequently changing and mixed ground: A case history in Singapore – Science Direct[J]. Tunnelling and Underground Space Technology,2007,22(4):388-400. doi: 10.1016/j.tust.2006.10.002
[8]胡 怡,顾红星,张国利. TBM盘形滚刀的失效分析[J]. 金属热处理,2002,27(1):55-56. doi: 10.3969/j.issn.0254-6051.2002.01.025
[9]TANIMOTO C,YAMANAKA S,TSUSAKA K,et al. A Study on cutter wear and mechanical properties of rocks in tunneling with a TBM[J]. Journal of the Society of Materials Science Japan,2006,55(1):29-36. doi: 10.2472/jsms.55.29
[10]孙 红,周 鹏,孙 健,等. 岩石隧道掘进机滚刀受力及磨损[J]. 辽宁工程技术大学学报(自然科学版),2013,32(9):87-91.
[11]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,2016,36(11):1394-1400.
[12]张厚美. 复合地层中盾构刀具磨损的检测方法研究[C] //上海国际隧道工程研讨会论文集. 上海: 同济大学出版社, 2005.
[13]管会生,高 波. 盾构切削刀具寿命的计算[J]. 工程机械,2006,37(1):25-28.
[14]HASSANPOUR J,ROSTAMI J,AZALI S 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 incorporating Trenchless Technology Research,2014,43:222-231.
[15]牛江川,赵红霞,李素娟,等. 盾构滚刀磨损在线检测系统设计[J]. 石家庄铁道大学学报(自然科学版),2015,28(28):58-62.
[16]任德志,孙晓平. 基于CC1101的盾构滚刀磨损监测系统的设计[J]. 矿山机械,2015,43(4):5. doi: 10.16816/j.cnki.ksjx.2015.04.029
[17]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):41-49.
[18]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,2021,54:1731-1753.
[19]王光辉,吕瑞虎. 盾构刀具磨损超声波检测系统室内试验研究[J]. 隧道建设,2015,35(10):1089-1096.
[20]WILLIS D,SHANAHAN A,BOX Z. Remote disc cutter monitoring in tunneling[J]. Tunnel,2011,30(8):68-75.
[21]张晓平,唐少辉,吴 坚,等. 苏通GIL综合管廊工程泥水盾构穿越致密复合砂层磨蚀性预测分析[J]. 工程地质学报,2017,25(5):1364-1373.
[22]龚秋明,佘祺锐,丁 宇. 大理岩磨擦试验及隧道掘进机刀具磨损分析−锦屏二级水电站引水隧洞工程[J]. 北京工业大学学报,2012,38(8):1196-1201. doi: 10.11936/bjutxb2012081196
[23]王 旭,李 晓,廖秋林. 岩石可掘性研究的试验方法述评[J]. 地下空间与工程学报,2009,5(1):67-73. doi: 10.3969/j.issn.1673-0836.2009.01.013
[24]WEST G. A relation between abrasiveness and quartz content for some coal measures sediments[J]. International Journal of Mining & Geological Engineering,1986,4(1):73-78.
[25]ALBER M,YARALI O,DAHL F,et al. ISRM suggested method for determining the abrasivity of rock by the CERCHAR abrasivity test[J]. Rock Mechanics & Rock Engineering,2014,47:261-266.
[26]ASTM D7625-10: Standard Test Method for Laboratory Determination of Abrasiveness of Rock Using the CERCHAR Method[S]. 2010.
[27]AL-AMEEN S I,WALLER M D. The influence of rock strength and abrasive mineral content on the Cerchar abrasive index[J]. Engineering Geology,1994,36(3-4):293-301. doi: 10.1016/0013-7952(94)90010-8
[28]MICHALAKOPOULOS T N,ANAGNOSTOU V G,BASSANOU M E,et al. The influence of steel styli hardness on the Cerchar abrasiveness index value[J]. International Journal of Rock Mechanics & Mining Sciences,2006,43(2):321-327.
[29]PLINNINGER R, KÄSLING H, K. THURO C, et al Testing conditions and geomechanical properties influencing the CERCHAR abrasiveness index (CAI) value[J]. International Journal of Rock Mechanics and Mining Sciences,2003,40(2):259-263. doi: 10.1016/S1365-1609(02)00140-5
[30]BLINDHEIM O T , BRULAND A. Boreability testing[C]//Norwegian TBM tunneling—30 years of experience with TBMs in Norwegian tunneling. Trondheim, Norway: Norwegian Soil and Rock Engineering Association, 1998.
[31]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. doi: 10.13229/j.cnki.jdxbgxb20190807
[32]杨延栋,陈 馈,李凤远,等. 盘形滚刀磨损预测模型[J]. 煤炭学报,2015,40(6):1290-1296.
[33]WIJK G. A model of tunnel boring machine performance[J]. Geotechnical and Geological Engineering,1992,10(1):19-40. doi: 10.1007/BF00881969
[34]龚秋明,许弘毅,李立民. 岩石磨蚀性指数分级讨论[J]. 地下空间与工程学报,2021,17(3):748-758.
[35]ROSTAMI J, OZDEMIR L, BRULAND A, et al. Review of issues related to cerchar abrasivity testing and their implications on geotechnical investigations and cutter cost estimates[C]. Proceedings of the Retc. Hutton, [s. n. ]: 2005, 738-751.
[36]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.
[37]闫长斌,姜晓迪,杨继华,等. 考虑地质适宜性和滚刀直径的TBM刀具消耗预测[J]. 隧道建设,2018,38(7):1243-1250.
[38]GEHRING K. Prognosis of advance rates and wear for underground mechanized excavations[J]. Felsbau,1995,13(6):439-448.
[39]BRULAND A. Hard rock tunnel boring[D]. Trondheim, Norway: Norwegian University of Science and Technology, 1998.
[40]MACIAS F J. Hard Rock Tunnel Boring: Performance Predictions and Cutter Life Assessments[D]. Trondheim, Norway: Norwegian University of Science and Technology, 2016.
[41]FARROKH E,KIM D Y. A discussion on hard rock TBM cutter wear and cutterhead intervention interval length evaluation[J]. Tunnelling and Underground Space Technology,2018,81:336-357. doi: 10.1016/j.tust.2018.07.017
[42]DAHL E,GRØV E,BREIVIK T. Development of a new direct test method for estimating cutter life based on the Sievers’J miniature drill test[J]. Tunnelling and Underground Space Technology,2007,22(1):106-116. doi: 10.1016/j.tust.2006.03.001
[43]MAIDL B, SCHMIDZ L, RITZ W, et al. Hard rock tunnel boring machines[M]. New York: John Wiley & Sons, 2008.
[44]BIENIAWSKI Z T, CELADA C B, GALERA J M, et al. Prediction of cutter wear using RME[C]//Budapest: ITA-AITES World Tunnel Congress, 2009.
[45]FRENZEL C. Disc cutter wear phenomenology and their implications on disc cutter consumption for TBM[C]. San Francisco, Califrnia: The 45th American Rock Mechanics / Geomechanics Symposium, 2011.
基金项目:
基金项目:国家重点研发计划(2016YFC0600802);国家自然科学基金(41907256)
- 文件大小:
- 1.04 MB
- 下载次数:
- 60
-
高速下载
|
|
