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Rock Mechanics and Rock Engineering

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20-09-2016 | Original Paper

Correlation of the Rock Mass Rating (RMR) System with the Unified Soil Classification System (USCS): Introduction of the Weak Rock Mass Rating System (W-RMR)

Authors: Sean N. Warren, Raj R. Kallu, Chase K. Barnard

Published in: Rock Mechanics and Rock Engineering | Issue 11/2016

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Abstract

Underground gold mines in Nevada are exploiting increasingly deeper ore bodies comprised of weak to very weak rock masses. The Rock Mass Rating (RMR) classification system is widely used at underground gold mines in Nevada and is applicable in fair to good-quality rock masses, but is difficult to apply and loses reliability in very weak rock mass to soil-like material. Because very weak rock masses are transition materials that border engineering rock mass and soil classification systems, soil classification may sometimes be easier and more appropriate to provide insight into material behavior and properties. The Unified Soil Classification System (USCS) is the most likely choice for the classification of very weak rock mass to soil-like material because of its accepted use in tunnel engineering projects and its ability to predict soil-like material behavior underground. A correlation between the RMR and USCS systems was developed by comparing underground geotechnical RMR mapping to laboratory testing of bulk samples from the same locations, thereby assigning a numeric RMR value to the USCS classification that can be used in spreadsheet calculations and geostatistical analyses. The geotechnical classification system presented in this paper including a USCS–RMR correlation, RMR rating equations, and the Geo-Pick Strike Index is collectively introduced as the Weak Rock Mass Rating System (W-RMR). It is the authors’ hope that this system will aid in the classification of weak rock masses and more usable design tools based on the RMR system. More broadly, the RMR–USCS correlation and the W-RMR system help define the transition between engineering soil and rock mass classification systems and may provide insight for geotechnical design in very weak rock masses.

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ASTM International (2004) Designation D6913-04 standard test method for particle-size distribution (gradation) of soils using sieve analysis. ASTM International, West Conshohocken

ASTM International (2009) Designation D2488-09a standard practice for description and classification of soils (visual-manual procedure). ASTM International, West Conshohocken

ASTM International (2010a) Designation D4318-10 standard test methods for liquid limit, plastic limit, and plasticity index of soils. ASTM International, West Conshohocken

ASTM International (2010b) Designation D2216-10 standard test methods for laboratory determination of water (moisture) content of soil and rock by mass. ASTM International, West Conshohocken

ASTM International (2011) Designation: D2487-11 standard practice for classification of soils for engineering purposes (unified soil classification system). ASTM International, West Conshohocken

Bieniawski ZT (ed) (1976) Rock mass classifications in rock engineering. In: Exploration for rock engineering, Proceedings of the symposium. AA Balkema, Cape Town, pp 97–106

Bieniawski ZT (1989) Geomechanics classification. Engineering rock mass classifications. Wiley, New York, pp 51–69

Bieniawski ZT (1993) Engineering classification of rock masses: the RMR system and future trends. Comprehensive rock engineering. Pergamon Press, New York, pp 553–573

Bieniawski ZT (2011) Misconceptions in the applications of rock mass classifications and their corrections, ADIF seminar on advanced geotechnical characterization for tunnel design, Madrid, Spain; 2011, pp 4–9. http://www.geocontrol.es/publicaciones/EB-189_adif_errores_en_la_aplicacion_bieniawski_eng.pdf. Last visited March 5, 2015

Brady T, Martin L, Pakalnis R (2005) Empirical approaches for open design in weak rock masses. Transactions of the Institution of Mining and Metallurgy 114:A13–A20

Brown ET (ed) (1981) Site characterization. In: Rock characterization testing and monitoring. Pergamon Press, Oxford, pp 1–47

Casagrande A (1948) Classification and identification of soils. Transactions, ASCE 1948(113):901–930

Das BM (2011) Geotechnical properties of soil. In: Principles of foundation engineering. Cengage Learning, 7th edn, pp 1–62

Deere DU, Deer DW (1988) The rock quality designation (RQD) index in practice. In: Kirkaldie L (ed) Rock classification systems for engineering purposes. ASTM 984, American Society for Testing and Materials, Ann Arbor, pp 91–101CrossRef

Deere DU, Hendron AJ, Patton F, Cording EJ (1967) Design of surface and near surface excavations in rock. In: Fairhurst C (ed) Proceedings of the 8th US symposium on rock mechanics: failure and breakage of rock, pp 237–302. AIME, New York

Deere DU, Peck RB, Monsees JE, Schmidt B (1969) Design of tunnel liners and support systems, final report, contract 3-0152, US Department of Transportation

Grimstad E, Barton N (1993) Updating of the q-system for NMT. In: Proceedings from the international symposium on sprayed concrete, pp 46–66. Fagernes

Heuer RE, Virgens DL (1987) Anticipated behavior of silty sands in tunneling. In: Proceedings from the rapid excavation and tunneling conference, pp 221–237. New Orleans

Hoek E (2007) Practical rock engineering course notes. https://www.rocscience.com/education/hoeks_corner. Site last visited April, 2015

Hoek E, Marinos P (2007) A brief history of the development of the Hoek-Brown failure criterion. In: Soil and rocks, no 2, November 2007

Hoek E, Kaiser P, Bawden W (1995) Strength of rock and rock masses. In: Support of underground excavations in hard rock. Rotterdam, Balkema, pp 91–105

Hung JC, Monsees J, Munfah N, Wisniewski J (2009) Technical manual for design and construction of road tunnels-civil elements. Prepared for the US Department of Transportation. Publication no FHWA-NHI-10-034

Kendorski FS, Cummings RA, Bieniawski ZT, Skinner EH (1983) Rock mass classification for block caving mine drift support. In: Proceedings of 5th congress of the international society for rock mechanics, Melbourne, 10–15 April 1983 V1, PB51–B63. Publ Rotterdam: AA Balkema, 198

Laubscher DH (1990) A geomechanics classification system for the rating of rock mass in mine design. JS Afr Inst Metall 90(10):257–273

Lowson AR, Bieniawski ZT (2013) Critical assessment of RMR-based tunnel design practices: a practical engineers approach. In: Proceedings of the rapid excavation and tunneling conference, pp P180–198. Washington DC

Marinos V, Marinos P, Hoek E (2005) The geological strength index: applications and limitations. Bull Eng Geol Environ 64:55–65. doi:10.1007/s10064-004-0270-5 CrossRef

Mathis J, Page C (1995) Drifting in very poor rock—experience and analysis. Presented at the 101st annual Northwest Mining Association Convention. Spokane, Washington. http://www.zostrich.com/index_htm_files/spokane_paper_1.pdf. Last visited Feb 24, 2015

Ouchi A, Pakalnis R, Brady T (2008) Empirical design of span openings in weak rock based upon support type employed. In: Proceedings of the 99th annual ARMA conference, San Francisco, CA

Parker HW (1996) Geotechnical investigations. In: Bickel JO, Kuesel TR, King EH (eds) Tunnel Engineering Handbook, second edition. Chapman and Hall, London, pp 46–74

Sandbak L, Rai A (2013) Ground support strategies at the Turquoise Ridge joint venture. Rock Mech Rock Eng 46:437–454CrossRef

Sun C, Chen J (2013) Ground control practices at Leeville underground mine. In: Proceedings of the 32nd international conference on ground control in mining, pp 156–163. Morgantown, WV

Terzaghi K (1950) Geologic aspects of soft-ground tunneling. In: Parker D (ed) Applied sedimentation. Trask. Wiley, New York, pp 193–209

Warren S (2016) Empirical ground support recommendations and weak rock mass classification for underground gold mines in Nevada, USA. Dissertation, University of Nevada, Reno

Warren S, Kallu R (2016) Empirical ground support recommendations for underground gold mines in Nevada. In: Proceedings of the 50th US rock mechanics/geomechanics symposium. Houston, Texas

Title: Correlation of the Rock Mass Rating (RMR) System with the Unified Soil Classification System (USCS): Introduction of the Weak Rock Mass Rating System (W-RMR)
Authors: Sean N. Warren
Raj R. Kallu
Chase K. Barnard
Publication date: 20-09-2016
Publisher: Springer Vienna
Published in: Rock Mechanics and Rock Engineering / Issue 11/2016
Print ISSN: 0723-2632
Electronic ISSN: 1434-453X
DOI: https://doi.org/10.1007/s00603-016-1090-1

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