Investigation into the effects of different rocks on rock cuttability by a V-type disc cutter

Abstract This paper is about to investigate the effects of different rock structural properties and a V-type disc cutter on rock cuttability. The cutter having 381 mm in diameter, 90° edge angle and 1.4 mm tip radius is selected for linear rock cutting tests. Rock samples obtained from tunnels in Istanbul are subjected to physical and mechanical tests and rock cutting tests using V-type disc cutter. Three rock types – arcose, shale and fossilized limestone – representing almost same strength values in contrast to different rock structural properties are subjected to rock cutting tests. Rock cutting test results are compared with V-type disc theory proposed by Roxborough and Phillips (1975) and empirical equations developed by Bilgin (1977) . The field performance of a Lovat TBM equipped with V-type disc cutters is recorded and some recommendations are presented to tunnel contractors and practicing field engineer. Field boring parameters can be reproduced in the laboratory and theoretical results can be used taking into account rock cutting tests for performance prediction. Experimental rock cutting, field and theoretical results are compared with respect to rock cutting science. The results show that besides rock strength parameters, rock texture, grain size, mineralogy has an effect on the rock cutting parameters. The efficiency of V-type disc cutter in non-abrasive and medium strength rocks is also compared with CCS type disc cutter using some theoretical concepts. These factors should also be taken into account during the laboratory, field and theoretical calculations. As a result it is concluded that V-type sharp edge of disc cutters is very efficient tool in practice for TBMs if the formations include medium to soft strength and non-abrasive rocks.

[1]  F. F. Roxborough,et al.  Rock excavation by disc cutter , 1976 .

[2]  R. A. Snowdon,et al.  A study of disc cutting in selected British rocks , 1982 .

[3]  Hr Phillips,et al.  The influence of Tyre Tip Geometry on the Design of Disc Cutter Arrays , 1978 .

[4]  Michael Alber,et al.  Prediction of Penetration And Utilization For Hard Rock TBMs , 1996 .

[5]  R. Ribacchi,et al.  Influence of Rock Mass Parameters on the Performance of a TBM in a Gneissic Formation (Varzo Tunnel) , 2005 .

[6]  Cemal Balci,et al.  Correlation of rock cutting tests with field performance of a TBM in a highly fractured rock formation: A case study in Kozyatagi-Kadikoy metro tunnel, Turkey , 2009 .

[7]  Fun-Den Wang,et al.  TUNNEL-BORING PENETRATION RATE AND MACHINE DESIGN , 1978 .

[8]  Pe Jamal Rostami,et al.  Hard Rock TBM Cutterhead Modeling for Design and Performance Prediction , 2008 .

[9]  N Bilgin,et al.  Correlation of rock properties with the measured performance of disc cutters , 1977 .

[10]  Arne Lislerud,et al.  Hard rock tunnel boring: Prognosis and costs , 1988 .

[11]  Cemal Balci,et al.  Correlative study of linear small and full-scale rock cutting tests to select mechanized excavation machines , 2007 .

[12]  Jian Zhao,et al.  Development of a rock mass characteristics model for TBM penetration rate prediction , 2009 .

[13]  Nuh Bilgin,et al.  The performance prediction of a TBM in difficult ground condition , 1999 .

[14]  Allen W. Hatheway,et al.  The Complete ISRM Suggested Methods for Rock Characterization, Testing and Monitoring; 1974–2006 , 2009 .

[15]  H. Copur,et al.  Effect of replacing disc cutters with chisel tools on performance of a TBM in difficult ground conditions , 2012 .

[16]  Parviz F. Rad Bluntness and wear of rolling disk cutters , 1975 .

[17]  Cemal Balci,et al.  Control of rock cutting efficiency by muck size , 2008 .

[18]  Nuh Bilgin,et al.  Investigations into the mechanical cutting characteristics of some medium and high strength rocks , 1977 .

[19]  Saffet Yagiz,et al.  Utilizing rock mass properties for predicting TBM performance in hard rock condition , 2008 .

[20]  Qiuming Gong,et al.  In situ TBM penetration tests and rock mass boreability analysis in hard rock tunnels , 2007 .

[21]  H. Copur,et al.  Dominant rock properties affecting the performance of conical picks and the comparison of some experimental and theoretical results , 2006 .

[22]  D. Howarth,et al.  DEVELOPMENT OF AN INDEX TO QUANTIFY ROCK TEXTURE FOR QUALITATIVE ASSESSMENT OF INTACT ROCK PROPERTIES , 1986 .

[23]  Jian Zhao,et al.  A new hard rock TBM performance prediction model for project planning , 2011 .

[24]  A. Ersoy,et al.  Textural characterisation of rocks , 1995 .

[25]  P J Tarkoy,et al.  Rock Hardness Index Properties and Geotechnical Parameters for Predicting Tunnel Boring Machine Performance , 1975 .

[26]  H. P. Sanio,et al.  Prediction of the performance of disc cutters in anisotropic rock , 1985 .

[27]  Zhiye Zhao,et al.  Prediction model of tunnel boring machine performance by ensemble neural networks , 2007 .