Page 608 - Rock Mechanics For Underground Mining
P. 608
REFERENCES
Symp. & 17th Tunn. Assn Can. Conf., Toronto (eds R. Hammah, W. Bawden, J. Curran and M. Telesnicki),
1: 99–106. Univ. Toronto Press: Toronto.
Bandis, S. C., Lumsden, A. C. and Barton, N. R. (1981) Experimental studies of scale effects on the shear
behaviour of rock joints. Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., 18(1): 1–21.
Bandis, S. C., Lumsden, A. C. and Barton, N. R. (1983) Fundamentals of rock joint deformation. Int J.
Rock Mech. Min. Sci. & Geomech. Abstr., 20(6): 249–68.
Bandis, S. C., Barton, N. R. and Christianson, M. (1985) Application of a new numerical model of joint
behaviour to rock mechanics problems. Proc. Int. Symp. Fundamentals of Rock Joints,Bj¨orkliden (ed.
O. Stephansson), 345–55. Centek: Lule˚a.
Barber, J., Thomas, L. and Casten, T. (2000) Freeport Indonesia’s Deep Ore Zone Mine. Proc. MassMin
2000, Brisbane (ed. G. Chitombo), 289–94. Aust. Inst. Min. Metall.: Melbourne.
Barker, R. M. and Hatt, F. (1972) Joint effects in bedded formation roof control. New Horizons in Rock
Mechanics, Proc. 14th U. S. Symp. Rock Mech., University Park (eds H. R. Hardy and R. Stefanko),
247–61. ASCE: New York.
Barr, M. V. and Brown, E. T. (1983) A site exploration trial using instrumented diamond drilling. Proc.
5th Congr., Int. Soc. Rock Mech., Melbourne, 1: A51–7. A. A. Balkema: Rotterdam.
Barrett, J. R. (1973) Structural aspects of cemented fill behaviour. Mine Filling, Proc. Jubilee Symp. Mine
Filling, Mount Isa, 97–104. North West Qld Branch, Aust. Inst. Min. Metall: Mount Isa.
Barrett, J. R., Coulthard, M. A. and Dight, P. M. (1978) Determination of fill stability. Mining with Backfill,
Proc. 12th Can. Rock Mech. Symp., Sudbury, 85–91. Can. Inst. Min. Metall: Montreal.
Barrett, J. R. and Cowling, R. D. (1980) Investigation of cemented fill stability in 1100 orebody, Mount
Isa Mines, Ltd., Queensland, Australia. Trans. Aust. Inst. Min. Metall., 89: 118–28.
Barton, N. R. (1973) Review of a new shear strength criterion for rock joints. Engng Geol., 8(4): 287–332.
Barton, N. R. (1983) Application of Q-system and index tests to estimate shear strength and deformability
of rock masses. Proc. Int. Symp. on Engineering Geology and Underground Construction, Lisbon, 2:
II.51–70.
Barton, N. (1995) The influence of joint properties in modelling jointed rock masses. Proc. 8th Congr.,
Int. Soc. Rock Mech., Tokyo (ed. T. Fuji), 3: 1023–32. A. A. Balkema: Rotterdam.
Barton, N. (2002) Some new Q-value correlations to assist in site characterisation and tunnel design. Int.
J. Rock Mech. Min. Sci., 39(2): 185–216.
Barton, N. and Hansteen, H. (1979) Very large span openings at shallow depth: deformation magnitudes
from jointed models and finite element analysis. Proc. 4th Rapid Excavation and Tunnelling Conf.,
Atlanta (eds A. C. Maevis and W. A. Hustrulid), 2: 1331–53. AIME: New York.
Barton, N. R., Bandis, S. and Bakhtar, K. (1985) Strength, deformation and conductivity coupling of rock
joints. Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., 22(3): 121–40.
Barton, N. R., Lien, R. and Lunde, J. (1974) Engineering classification of rock masses for the design of
tunnel support. Rock Mech., 6(4): 189– 239.
Bawden, W. F. and Jones, S. (2002) Ground support design and performance under strong rockburst
conditions. Mining and Tunnelling Innovation and Opportunity, Proc. 5th North Am. Rock Mech. Symp.
& 17th Tunn. Assn Can. Conf., Toronto (eds R. Hammah, W. Bawden, J. Curran and M. Telesnicki), 1:
923–31. Univ. Toronto Press: Toronto.
Bawden, W. F. and Tod, J. D. (2003) Optimization of cable bolt ground support using SMART instrumen-
tation. ISRM News J., 7(3): 10–16.
Been, K., Brown, E. T. and Hepworth, N. (2002) Liquefaction potential of paste fill at Neves Corvo mine,
Portugal. Trans. Inst. Min. Metall., 111: A47–58.
Beer, G. (1984) BEFE – A combined boundary-finite element computer program. Advances in Engineering
Software, 6(2): 103–9.
Beer, G. and Meek, J. L (1982) Design curves for roofs and hangingwalls in bedded rock based on voussoir
beam and plate solutions. Trans Instn Min. Metall., 91: A18–22.
Berry, D. S. (1960) An elastic treatment of ground movement due to mining – I. Isotropic ground. J. Mech.
Phys. Solids, 8(4): 280–92.
Berry, D. S. (1963) Ground movement considered as an elastic phenomenon. Min. Engr, 123(37): 28–41.
Berry, D. S. (1978) Progress in the analysis of ground movements due to mining. Large Ground Movements
and Structures (ed. J. D. Geddes), 781–811. Pentech: London.
Berry, D. S. and Sales, T. W. (1961) An elastic treatment of ground movement due to mining – II. Trans-
versely isotropic ground. J. Mech. Phys. Solids, 9(1): 52–62.
590
