PUBLICATIONS: ROCSCIENCE PRODUCTS
CPILLAR
JOURNALS 1. Hutchinson, D. J., Phillips, C. and Cascante, G. (2002). Risk considerations for crown pillar
stability assessment for mine closure planning. Geotechnical and Geological Engineering 20,
41 - 63. (Also mentions: Unwedge.)
CONFERENCES 1. Beauchamp, K. J., Carter, T. G., Cooper, R. A., Ferguson, R., Kaczmarek, S. (2006). Addressing
Mine Hazards under Transportation Corridors - The Timmins Experience. Interstate
Technical Group on Abandoned Underground Mines, June 14 - 16, Rochester, New York.
OTHERS 1. Sainsbury, D., Itasca Consulting Group Inc. (2006). Crown Pillar Subsidence and Hydrologic
Stability Assessment for the Proposed Eagle Mine. Technical Report. (Also mentions: Phase2.)
DIPS
JOURNALS 1. Basarir, H. (2006). Engineering geological studies and tunnel support design at Sulakyurt
dam site, Turkey. Engineering Geology 86, 225 – 237. (Also mentions: Phase2 & RocLab.)
2. Basson, I. (2007). 3D Modelling of complexly deformed terrains. PositionIT, 53 – 58.
3. Casula, G., Mora, P., Bianchi, M. (2010). Detection of Terrain Morphologic Features Using
GPS, TLS, and Land Surveys: “Tana della Volpe” Blind Valley Case Study. Journal of
Surveying Engineering, 136, 132 – 138.
4. Coli, N., Pranzini, G., Alfi, A., Boerio, V. (2008). Evaluation of rock-mass permeability tensor
and prediction of tunnel inflows by means of geostructural surveys and finite element
seepage analysis. Engineering Geology, 101, 174 – 184.
5. Dunning, S. A., Massey, C. I. and Rosser, N. J. (2009). Structural and geomorphological
features of landslides in the Bhutan Himalaya derived from Terrestrial Laser Scanning.
Geomorphology 103, 17 – 29.
6. Feng, Q., Sjogren P., Stephansson, O., Jing L. (2001). Measuring fracture orientation at
exposed rock faces by using a non-reflector total station. Engineering Geology, 59, 133 – 146.
7. Genis, M., Basarir, H., Ozarslan, A., Bilir, E., Balaban, E. (2007). Engineering geological
appraisal of the rock masses and preliminary support design, Dorukhan Tunnel, Zonguldak,
Turkey. Engineering Geology, 92, 14-26.
8. Gurocak, Z., Alemdag, S., Zaman, M. (2008). Rock slope stability and excavatability
assessment of rocks at the Kapikaya dam site, Turkey. Engineering Geology, 96, 17-27.
9. Kalenchuk, K. S., McKinnon, S. and Diederichs, M. S. (2008). Block geometry and rock mass
characterization for prediction of dilution potential into sub-level cave mine voids.
International Journal of Rock Mechanics and Mining Science 45, 929 – 940. (Also mentions:
Unwedge.)
10. Kentli, B. and Topal, T. (2004). Assessment of rock slope stability for a segment of the
Ankara-Pozanti motorway, Turkey. Engineering Geology 74, 73 – 90. (Also mentions:
Swedge.)
11. Lana, M. and Gripp, M. (2003). The use of inclined hemisphere projections for analyzing
failure mechanisms in discontinuous rocks. Engineering Geology, 67, 321 – 330.
12. Lato, M., Diederichs, M., Hutchinson, D.J. (2010). Bias Correction for View-limited Lidar
Scanning of Rock Outcrops for Structural Characterization. Rock Mechanics
and Rock Engineering, 1-14.
13. Ozsan, A., Ocal, A., Akin, M., Basarir, H. (2007). Engineering geological appraisal of the
Sulakyurt dam site, Turkey. Bulletin of Engineering Geology and the Environment, 66, 483 -
492.
14. Oztekin, B., Topal, T., Kolat, C. (2006). Assessment of degradation and stability of a cut
slope in limestone, Ankara-Turkey. Engineering Geology, 84, 12-30.
15. Peila, D., Guardini, C. and Pelizza, S. (2008). Geomechanical design of a room and rib pillar
granite mine. Journal of University of Science and Technology Beijing 15, 97 – 103. (Also
mentions: Phase2 & Unwedge.)
16. Pinheiro, A., Lana, M., Sobreira, F., Leite, L. (2008). Volume estimation of a rock block in an
urban slope. Bulletin of Engineering Geology and the Environment, 67, 59-63.
17. Rasouli, M. (2009). Engineering geological studies of the diversion tunnel, focusing on
stabilization analysis and support design, Iran. Engineering Geology, 108, 3-4, 208-224. (Also
mentions: Phase2.)
18. Rigaray, C., Fernández, T., Chacón, J. (2003). Preliminary rock-slope-susceptibility
assessment using GIS and the SMR classification. Natural Hazards, 30, 309 – 324.
19. Stead, D., Eberhardt, E. and Coggan, J. S. (2006). Developments in the characterization of
complex rock slope deformation and failure using numerical modelling techniques.
Engineering Geology, 83, 217 – 235. (Also mentions: RocLab & Swedge.)
20. Sturzenegger, M. and Stead, D. (2009). Close-range terrestrial digital photogrammetry and
terrestrial laser scanning for discontinuity on rock cuts. Engineering Geology, 106, 163 –
182.
21. Viero, A., Teza, G., Massironi, M., Jaboyedoff, M., Galgaro, A. (2010). Laser scanning-based
recognition of rotational movements on a deep seated gravitational instability: The Cinque
Torri case (North-Eastern Italian Alps). Geomorphology, 122, 191 – 204.
22. Wang, J. (2010). High-level radioactive waste disposal in China: update 2010. Journal of
Rock Mechanics and Geotechnical Engineering, 2, 1–11.
23. Yiu, K., King, B. (2009). Stereonet Data from Terrestrial Laser Scanner Point Clouds. Survey
Review, 41, 324-338.
CONFERENCES 1. Byington, C. B. (2004). SOMA: A New Method to Calculate the Operative Stress Field:
Results from the Laurel Mountain Mine, Russell Co., Virginia. 23rd International Conference
on Ground Control in Mining, Aug 3 - 5, Morgantown, West Virginia. (Also mentions: Phase2.)
2. Cavinato, G., Cravero, M., Iabichino, G., Pettinau, D. (2005). Geostructural and
Geomechanical Characterization of Rock Exposures for an Endangered Alpine Road (Italy).
40th U.S. Symposium on Rock Mechanics (USRMS), June 25 - 29, Anchorage.
3. Chatzigogos N., Makedon T., Tsotsos S. (2007). The mechanical behaviour of gneisseous
rocks and selection of strength parameters for stability analysis of excavated
slopes. Proceedings 1st Sri Lankan Geotechnical Society International Conference on Soil and
Rock Engineering, Aug 7 – 11, Colombo. (Also mentions: RocPlane and Swedge.)
4. Curtaz M., Ferrero A., Segalini A. (2010). Study of the stability analysis of rock slopes on the
Alps. ISRM 6th Asian Rock Mechanics Symposium, Oct. 23 - 27, New Delhi, India. (Also
mentions: RocData & RocLab.)
5. Dale R., Hall G., Aiken S. (1999). Nickel Rim Site Closure Study – Phase I Crown Pillar
Stability Investigation. Sudbury ’99 (Mining and the Environment II), Sept. 13 – 17, Sudbury.
6. Fekete S., Diederichs M., Lato M. (2009). Geotechnical applications of lidar scanning in
tunneling. RockEng09, 3rd CANUS Rock Mechanics Symposium, May 11 – 13, Toronto.
7. Grenon M., Mellies G., Hadjigeorgiou J. (2008). Structural analysis along a highway rock
exposure: the Fleurimont road cut. 4th Canadian Conference on Geohazards, May 20 – 24,
Québec. (Also mentions: Swedge.)
8. Heckman, A. and Brady, J. (2010). Rock Mass Analysis And Support Measures For the No
Business Creek Tunnel Project, Gwinnett County, Georgia (A Case Study). 44th
US Rock Mechanics Symposium - 5th US/Canada Rock Mechanics Symposium, June 27 – 30,
Salt Lake City, Utah.
9. Loar, T. (2006). Screening Level Characterization of Rock Structure in Dam Foundations
Derived from Historic Construction Photographs. Proceedings of the 41st U.S. Rock
Mechanics Symposium, June 17 – 21, Golden, Colorado.
10. Mahboubi, A., Aminpour, A. and Noorzad, A. (2008). Conventional and Advanced Numerical
Methods of Rock Slope Stability Analysis, A Comparison Study, Gotvand Dam Right
Abutment (Iran) Case Study. The 12th International Conference of International Association
for Computer Methods and Advances in Geomechanics (IACMAG), Oct. 1 - 6, Goa. (Also
mentions: RocFall & Swedge.)
11. Malek, F., Suorineni, F., Vasak, P. (2009). Geomechanics strategies for rockburst
management at Vale Inco Creighton mine. RockEng09, 3rd CANUS Rock Mechanics
Symposium, May 11 – 13, Toronto.
12. Moraes, R. (2011). Numerical codes used to model failure in large fractured scale and
jointed rock slopes in hydropower projects. 6th International Conference on Dam
Engineering, Feb. 15 – 17, Lisbon.
13. Ocepek, D. (2007). Observational method for designing high cutting slopes in urban areas.
Proceedings of the 14th European Conference on soil Mechanics and Geotechnical Engineering,
Sept. 24 - 27, Madrid. (Also mentions: Swedge.)
14. Simmons, J. (2003). New rock mechanics models needed for slope stability in open pit coal
mines. International Conference on Groundwater in Geological Engineering, Sept. 22 – 26,
Bled, Slovenia.
15. Stead, D., Eberhardt, E., Coggan, J. and Benko, B. (2001). Advanced numerical techniques in
rock slope stability analysis - applications and limitations. Landslides - Causes, Impacts and
Countermeasures, June 17 - 21, Davos. (Also mentions: RocFall & Swedge.)
16. Van Knapen, B. and Slob, S. (2006). Identification and characterisation of rock mass
discontinuity sets using 3D laser scanning. Proceedings of the 10th IAEG Congress, Sept. 6 –
10, Nottingham, U.K.
OTHERS 1. Eberhardt, E. (2003). Rock Slope Stability Analysis - Utilization of Advanced Numerical
Techniques. Lecture Notes. (Also mentions: RocFall, RocPlane, Slide & Swedge.)
2. Toropainen, V. (2010). ONKALO Pose Experiment–Core Drilling of Drillholes ONK-PP223...
226, ONK-PP253... 261 and ONK-PP268... 272 in ONKALO at Olkiluoto 2009–2010. Working
report, Posiva Oy.
3. Toropainen, V. (2010). Core Drilling of Deep Drillhole OL-KR54 at Olkiluoto in Eurajoki
2010. Working report, Posiva Oy.
4. West, T. and Cho, K. (2007). Rock Slope Stability of the VMT. Technical Report.
EXAMINE2D
JOURNALS 1. Bagheri, M. and Stille, H. (2011). Investigation of model uncertainty for block stability
analysis. International Journal for Numerical and Analytical Methods in Geomechanics, 35,
824 – 836.
2. Fraldi, M. and Guarracino, F. (2011). Evaluation of impending collapse in circular tunnels
by analytical and numerical approaches. Tunnelling and Underground Space Technology, 26,
507 – 516.
3. Fraldi, M. and Guarracino, F. (2009). Limit analysis of collapse mechanisms in cavities and
tunnels according to the Hoek-Brown failure criterion. International Journal of Rock
Mechanics and Mining Science 46, 665 – 673.
4. Islam, M. R. and Shinjo, R. (2009). Numerical simulation of stress distributions and
displacements around an entry roadway with igneous intrusion and potential sources of
seam gas emission of the Barapukuria coal mine, NW Bangladesh. International Journal of
Coal Geology 78, 249 – 262.
5. Islam, M. R., Hayashi, D. and Kamruzzaman, A. B. M. (2009). Finite element modeling of
stress distributions and problems for multi-slice longwall mining in Bangladesh, with
special reference to the Barapukuria coal mine. International Journal of Coal Geology 78, 91
– 109.
6. Martin, C. D. and Maybee, W. G. (2000). The strength of hard-rock pillars. International
Journal of Rock Mechanics and Mining Science 37, 1239 – 1246. (Also mentions: Phase2.)
7. Mauldon, M. and Chou, K. (1997). Limit analysis of 2-D tunnel keyblocks. International
Journal of Rock Mechanics and Mining Sciences, 34, 193.e1-193.e15.
8. Zsáki, A. M. and Curran, J. H. (2005). A continuum mechanics-based framework for
boundary and finite element mesh optimization in two dimensions for application in
excavation analysis. International Journal for Numerical and Analytical Methods in
Geomechanics 29, 369 – 393. (Also mentions: Phase2.)
CONFERENCES 1. Arad, S., Arad, V., Veres, J., Stoicuta, O. (2008). Safety Excavation in Salt Rock Used for
Underground Storage in Romania. Proceedings of the 25th International Symposium on
Automation and Robotics in Construction, June 27 – 29, Vilnius, Lithuania. (Also mentions:
RocLab.)
OTHERS 1. Liu, L., Yao, L. and Wang, C. (2010). Influence of in-situ stress on stability of underground
openings in hard rock. In-house Journal: Journal of Central South University (Science and
Technology), 41, 709 – 714.
2. Lunder, P.J. (1994). Hard rock pillar strength estimation an applied empirical approach.
Master’s thesis, University of British Columbia.
3. Maybee, W. G. (2000). Pillar Design in Hard Brittle Rocks. Thesis, M.A.S. - Laurentian
University. (Also mentions: Phase2.)
4. Töyrä, J. (2006). Behaviour and Stability of Shallow Underground Constructions. Thesis,
Ph.D. - Luleå University of Technology. (Also mentions: RocLab.)
EXAMINE3D
JOURNALS 1. Alber, M. (2008). An Integrated Approach to Penetration, Advance Rates and Disc Cutter
Wear for Hard Rock TBM Drives. Geomechanik and Tunnelbau 1, 29 – 37.
2. Alber, M. (2008). Stress dependency of the Cerchar abrasivity index (CAI) and its effects on
wear of selected rock cutting tools. Tunnelling and Underground Space Technology 23, 351 –
359.
3. Alber, M. and Heiland, J. (2001). Investigation of a Limestone Pillar Failure Part 1: Geology,
Laboratory Testing and Numerical Modeling. Rock Mechanics and Rock Engineering 34, 167
– 186. (Also mentions: Phase2.)
4. Alber, M., Fritschen, R., Bischoff, M. and Meier, T. (2009). Rock mechanical investigations of
seismic events in a deep longwall coal mine. International Journal of Rock Mechanics and
Mining Science 46, 408 – 420. (Also mentions: Phase2.)
5. Andersson, J. C. and Martin, C. D. (2009). The Äspö pillar stability experiment: Part I—
Experiment design. International Journal of Rock Mechanics and Mining Science 46, 865 –
878. (Also mentions: Phase2.)
6. Andersson, J. C., Martin, C. D. and Stille, H. (2009). The Äspö Pillar Stability Experiment:
Part II—Rock mass response to coupled excavation-induced and thermal-induced stresses.
International Journal of Rock Mechanics and Mining Science 46, 879 – 895. (Also mentions:
Phase2.)
7. Barla, G., Fava, A. and Peri, G. (2008). Design and Construction of the Venaus Powerhouse
Caverns in Calcschists. Geomechanik and Tunnelbau 1, 399 – 406. (Also mentions: Phase2 &
Unwedge.)
8. Cai, M., Kaiser, P. K., Tasaka, Y., Maejima, T. Morioka, H. and Minami, C. (2004). Generalized
crack initiation and crack damage stress thresholds of brittle rock masses near
underground excavations. International Journal of Rock Mechanics and Mining Science 41,
833 – 847.
9. Martin, C. D. and Lanyon, G. W. (2003). Measurement of in-situ stress in weak rocks at
Mont Terri Rock Laboratory, Switzerland. International Journal of Rock Mechanics and
Mining Science 40, 1077 – 1088.
10. Martin, C. D., Kaiser, P. K. and Christiansson, R. (2003). Stress, instability and design of
underground excavations. International Journal of Rock Mechanics and Mining Science 40,
1027 – 1047. (Also mentions: Phase2.)
11. Mercer, R.A. and Bawden W.F. (2005). A statistical approach for the integrated analysis of
mine-induced seismicity and numerical stress estimates, a case study - Part I: developing
the relations. International Journal of Rock Mechanics and Mining Sciences, 42, 47 - 72.
12. Young, R. P. and Collins, D. S. (2001). Seismic studies of rock fracture at the Underground
Research Laboratory, Canada. International Journal of Rock Mechanics and Mining Science
38, 787 – 799.
CONFERENCES 2. Alber, M. and Fritschen, R. (2009). Rock Mechanics Investigations on Seismic Events
Around Two Longwall Coal Operations. 27th International Conference on Ground Control in
Mining, July 28 - 30, Morgantown, West Virginia. (Also mentions: Phase2.)
3. Barla, M. (1998). Stress paths around a circular tunnel. Workshop on Squeezing Rock
Conditions in Tunnelling, June 10, Stockholm.
4. Bonini, M., Barla, M. and Barla, G. (2001). Flac applications to the analysis of swelling
behaviour in tunnels. 2nd Flac Symposium on Numerical Modeling in Geomechanics, Oct. 29 -
31, Lyon.
5. Chan, K. F., Kotze, G. P. and Stone, P. C. (2005). Geotechnical modelling of station caverns
for the Epping to Chatswood rail line project. Proceedings Geotechnical Aspects of Tunnelling
for Infrastructure Projects, Mini-Symposium, Oct. 12, Milsons Point.
6. Crowder, J.J. and Bawden, W.F. (2005). Properties and behaviour of field-scale fractured
rock masses using numerical simulation and field instrumentation. 40th U.S. Symposium on
Rock Mechanics (USRMS), June 25 - 29, Anchorage.
7. Crowder, J. J., Coulson, A. L. and Bawden, W. F. (2006). The Field-Scale Rock Mechanics
Laboratory: Estimation of Post-Peak Parameters and Behaviour of Fractured Rock Masses.
Proceedings of the 41st U.S. Symposium on Rock Mechanics (USRMS), June 17 - 21, Golden,
CO. (Also mentions: Phase2.)
8. De Graaf, P., Hyett, A., Lausch, P., Bawden, W.F. and Yao, M. (2000). Hudson Bay Mining and
Smelting Co.'s field trials using 'SMART' technology–successful ground support design
through in situ cable bolt performance evaluation. Proceedings of the 53rd Canadian
Geotechnical Conference, Oct. 15 - 18, Montreal.
9. Esterhuizen, G. and Dolinar, D. (2007). Observations and evaluation of floor benching
effects on pillar stability in US limestone mines. Proceedings of the First Canada - U.S. Rock
Mechanics Symposium, May 27-31, Vancouver.
10. Ferrero, A., Bianchini, S. and Pacini, M. (2006). Analysis of the stability condition of
underground excavations by experimental measurements and 3D numerical modeling. 41st
U.S. Symposium on Rock Mechanics (USRMS), June 17 - 21, Golden, Colorado.
11. Goodfellow, R., Mitri, H. and Bedard, N. (2009). 3-Dimensional Numerical Modelling of
Stope Sequencing For Mine Planning. 43rd U.S. Rock Mechanics Symposium & 4th U.S. -
Canada Rock Mechanics Symposium, June 28 - July 1, Asheville, North Carolina.
12. Hakala, M. and Tolppapen, P. (2003). Analyses of Tunnel Stress Failure at Pyhäsalmi Mine.
ISRM 2003–Technology roadmap for rock mechanics, South African Institute of Mining and
Metallurgy, Sept. 8 - 12, Gauteng.
13. Joubert, J. S. C., Freeman, L. A., Terbrugge, P. J. and Venter, J. (2008). The Koidu Vertical Pit -
Sierra Leone. The International Conference on Surface Mining, Aug. 5 - 8, Johannesburg. (Also
mentions: Phase2.)
14. Loftsson, M., Jóhannsson, Æ. and Erlingsson, E. (2005). KÁRAHNJÚKAR HYDROELECTRIC
PROJECT - POWERHOUSE CAVERN Successful excavation despite complex geology and
stress induced stability problems. Fjellsprengningsteknikk Bergmekanikk/Geoteknikk. (Also
mentions: Phase2.)
15. Martin, C. D., Tannant, D. D., Yazici, S. and Kaiser, P. K. (1999). Stress path and instability
around mine openings. 9th International Society for Rock Mechanics Congress, Aug. 25 - 28,
Paris. (Also mentions: Phase2.)
16. McMullan, J. and Bawden, W.F. (2004). Excavation of a shaft destress slot at the Newmont
Canada Golden Giant Mine. Gulf Rocks 2004, the 6th North America Rock Mechanics
Symposium (NARMS), June 5 - 9, Houston.
17. Peglas, T. and Smith, P. (2004). Design Challenges of the Cross City Tunnel. Proceedings Of
The 30th Ita-Aites World Tunnel Congress, May 22 - 27, Singapore.
18. Pettitt, W. and Baker, C. (2002). Using acoustic emissions for assessment of damage in rock
around engineered structures at the Äspö Hard Rock Laboratory. Mining and Tunnel
Innovation and Opportunity, Proceedings of the 5th North American Rock Mechanics
Symposium, July 7 – 10, Toronto.
19. Wang, C. (2004). Rock mass characterization for numerical modelling of ground stability
control in mining. Proceedings of the Fifth International Symposium on Ground Support,
September 28 – 30, Perth, Australia.
20. Young, R.P. (1992). Invited paper: Correlations between seismic velocity and induced
seismicity in underground mines. The 33th U.S. Symposium on Rock Mechanics (USRMS), June
3 - 5, Santa Fe, New Mexico.
21. Zsáki, A. M. (2008). cutting|Plane: An Interactive Tool for Exploration of 3D Datasets via
Slicing. Proceedings of the 2008 C3S2E conference, May 12 - 13, Montreal.
OTHERS 1. Andersson, C., Rinne, M. and Staub, I. (2004). The on-going pillar stability experiment at
the Äspö hard rock laboratory, Sweden. Elsevier Geo-Engineering Book Series, Volume 2,
pages 389-394.
2. Barla, M. (1999). Tunnels in Swelling Ground. Thesis, Ph.D. - Politecnico di Torino. (Also
mentions: Phase2.)
3. Crowder, J. J. and Bawden, W. F. (2004). Review of Post-Peak Parameters and Behaviour of
Rock Masses: Current Trends and Research. (Also mentions: Phase2, RocData & RocLab.)
4. Crowder, J. J. and Bawden, W. F. (2006). The Estimation of Post-Peak Rock Mass Properties:
Numerical Back Analysis Calibrated using In Situ Instrumentation Data. (Also mentions:
Phase2.)
5. Golder Associates. (2006). Geotechnical Analyses of Proposed Laboratory Excavations at the
Former Homestake Mine Lead, South Dakota. Technical Report.
6. Martin, C. D., Christiansson, R. and Söderhäll, J. (2001). Rock stability considerations for
siting and constructing a KBS-3 repository. Technical Report.
EXAMINETAB
JOURNALS 1. Edelbro, C., Sjöberg, J. and Nordlund, E. (2006). A quantitative comparison of strength
criteria for hard rock masses. Tunnelling and Underground Space Technology 22, 57 – 68.
CONFERENCES 1. Zipf, R. K. Jr. (2001). Toward Pillar Design to Prevent Collapse of Room-and-Pillar Mines.
108th Annual Exhibit and Meeting, Society for Mining, Metallurgy, and Exploration, Feb. 26 -
28, Denver, CO.
2. Zipf, R. K. Jr. and Heuze, F. E. (2003). Numerical modeling of the U1A Complex at the
Nevada Test Site: Model Development and Comparison of Different Drift Mining Options.
Proceedings 22nd International Conference on Ground Control in Mining, Aug. 5 - 7,
Morgantown, WV.
OTHERS 1. DuBois, C. (2009). Comprehensive design methodology for coal mining under competent
sandstone roof. Master’s thesis, University of British Columbia.
2. Edelbro, C. (2008). Strength, fallouts and numerical modelling of hard rock masses. Doctoral
Thesis, Luleå University of Technology. (Also mentions:Phase2)
PHASE2
JOURNALS 1. Akgün, H. (2003). Remediation of the geotechnical problems of the Hasankeyf historical
area, southeastern Turkey. Environmental Geology 44, 522 – 529.
2. Alber, M. and Heiland, J. (2001). Investigation of a Limestone Pillar Failure Part 1: Geology,
Laboratory Testing and Numerical Modeling. Rock Mechanics and Rock Engineering 34, 167
– 186. (Also mentions: Examine3D.)
3. Alber, M. and Heiland, J. (2001). Investigation of a Limestone Pillar Failure Part 2: Stress
History and Application of Fracture Mechanics Approach. Rock Mechanics and Rock
Engineering 34, 187 – 199.
4. Alber, M., Fritschen, R., Bischoff, M. and Meier, T. (2009). Rock mechanical investigations of
seismic events in a deep longwall coal mine. International Journal of Rock Mechanics and
Mining Science 46, 408 – 420. (Also mentions: Examine3D.)
5. Allawi, F. A. M. (2009). Educational Program for Teaching Seepage Studies (EPTS).
Computer Applications in Engineering Education.
6. Andersson, J. C. and Martin, C. D. (2009). The Äspö pillar stability experiment: Part I—
Experiment design. International Journal of Rock Mechanics and Mining Science 46, 865 –
878. (Also mentions: Examine3D.)
7. Andersson, J. C., Martin, C. D. and Stille, H. (2009). The Äspö Pillar Stability Experiment:
Part II—Rock mass response to coupled excavation-induced and thermal-induced stresses.
International Journal of Rock Mechanics and Mining Science 46, 879 – 895. (Also mentions:
Examine3D.)
8. Arshadnejad, S., Goshtasbi, K., Aghazadeh, J. (2009). Stress concentration analysis between
two neighboring circular holes under internal pressure of a non-explosive expansion
material. Yerbilimleri/Earth Sciences, v 30, n 3, 259-270.
9. Backers, T., Stephansson, O. and Rybacki, E. (2002). Rock fracture toughness testing in
Mode II—punch-through shear test. International Journal of Rock Mechanics and Mining
Science 39, 755 – 769.
10. Barla, G., Fava, A. and Peri, G. (2008). Design and Construction of the Venaus Powerhouse
Caverns in Calcschists. Geomechanik and Tunnelbau 1, 399 – 406. (Also mentions: Examine3D
& Unwedge.)
11. Basarir, H. (2006). Engineering geological studies and tunnel support design at Sulakyurt
dam site, Turkey. Engineering Geology 86, 225 – 237. (Also mentions: Dips & RocLab.)
12. Basarir, H. (2008). Analysis of rock-support interaction using numerical and multiple
regression modeling. Canadian Geotechnical Journal 45, 1 – 13.
13. Basarir, H., Ozsan, A. and Karakus, M. (2005). Analysis of support requirements for a
shallow diversion tunnel at Guledar dam site, Turkey. Engineering Geology 81, 131 – 145.
(Also mentions: RocLab.)
14. Cai, M. (2011). Rock Mass Characterization and Rock Property Variability Considerations
for Tunnel and Cavern Design. Rock Mechanics and Rock Engineering, p 1-21.
15. Cai, M. (2008). Influence of stress path on tunnel excavation response; numerical tool
selection and modeling strategy. Tunnelling and Underground Space Technology 23, 6, 618-
628.
16. Cai, M., Kaiser, P. K., Tasaka, Y. and Minami, M. (2007). Determination of residual strength
parameters of jointed rock masses using the GSI system. International Journal of Rock
Mechanics and Mining Science 44, 247 – 265.
17. Cai, M., Morioka, H., Kaiser, P. K., Tasaka, Y. Kurose, H. Minami, M. and Maejima, T. (2007).
Back-analysis of rock mass strength parameters using AE monitoring data. International
Journal of Rock Mechanics and Mining Science 44, 538 – 549.
18. Carranza-Torres, C. (2009). Analytical and Numerical Study of the Mechanics of Rockbolt
Reinforcement around Tunnels in Rock Masses. Rock Mechanics and Rock Engineering 42,
175 – 228.
19. Carranza-Torres, C. and Diederichs, M. (2009). Mechanical analysis of circular liners with
particular reference to composite supports. For example, liners consisting of shotcretes and
steel sets. Tunnelling and Underground Space Technology 24, 506 – 532. (Also mentions:
RocSupport.)
20. Cho, N., Martin, C.D., Sego, D.C., Jeon, J. (2010). Dilation and Spalling in Axially Compressed Beams Subjected to Bending. Rock Mechanics and Rock Engineering, 43, 123-133.
21. Corthésy, R., Leite, M. H, Gill, D. E. and Gaudin, B. (2003). Stress measurements in soft
rocks. Engineering Geology 69, 381 – 397.
22. Diederichs, M. S., Kaiser, P. K. and Eberhardt, E. (2004). Damage initiation of propagation
in hard rock during tuennelling and the influence of near-face stress rotation. International
Journal of Rock Mechanics and Mining Science 41, 785 – 812.
23. Edelbro, C. (2009). Different Approaches for Simulating Brittle Failure in Two Hard Rock
Mass Cases: A Parameteric Study. Rock Mechanics and Rock Engineering.
24. Edelbro, C. (2009). Numerical modelling of observed fallouts in hard rock masses using an
instantaneous cohesion-softening friction-hardening model. Tunnelling and Underground
Space Technology 24, 398 – 409.
25. Fellner, D. and Hobson, D. (2008). HPP Glendoe - Rock Mechanical Aspects for Large Span
Underground Powerhouse. Geomechanik and Tunnelbau 1, 374 – 382. (Also mentions:
Unwedge.)
26. Ghafoori, M., Lashkaripour, G. R. and Azali, S. T. (2007). Engineering Geological
Characterization of Kallat Tunnel, Ne Iran. World Applied Science Journal 2, 499 – 508.
27. Gurocak, Z., Alemdag, S. and Zaman, M. M. (2008). Rock slope stability and excavatability
assessments of rocks at the Kapikaya dam site, Turkey. Engineering Geology 96, 17 – 27.
28. Gurocak, Z., Solanki, P. and Zaman, M. M. (2007). Empirical and numerical analyses of
support requirements for a diversion tunnel at the Boztepe dam site, eastern Turkey .
Engineering Geology 91, 194 – 208.
29. Hoek, E. (2001). Big Tunnels in Bad Rock. Journal of Geotechnical and Geoenvironmental
Engineering 127, 726 – 740.
30. Hoek, E. and Guevara, R. (2009). Overcoming Squeezing in the Yacambú-Quíbor Tunnel,
Venezuela. Rock Mechanics and Rock Engineering 42, 389 – 418.
31. Kemeny, J. (2005). Time-dependent drift degradation due to the progressive failure of rock
bridges along discontinuities. International Journal of Rock Mechanics and Mining Science 42,
35 – 46.
32. Koçkar, M. K. and Akgün, H. (2003). Engineering geological investigations along the Ilıksu
Tunnels, Alanya, southern Turkey. Engineering Geology 68, 141 – 158.
33. Liu, X., Luo, Z., Yang, C., Zhang, B., Lu, H. (2007). Analysis of stability of cavity based on
cavity monitoring. Yantu Lixue/Rock and Soil Mechanics, v 28, n SUPPL., p 521-526.
34. Lilly, P. A. and Li., J. (2000). Estimating excavation reliability from displacement modelling.
International Journal of Rock Mechanics and Mining Science 37, 1261 – 1265.
35. Luo et al. (2009). Simulation Prediction of Stability in Large-Scale Stope Mining and
Verification by the Monitoring Results. Mining and Metallurgical Engineering, 06.
36. Luo et al. (2008). Study on cavity stability numerical simulation based on coupling of
Surpac and Phase~2. Journal of Liaoning Technical University (Natural Science), 4.
37. Martin, C. D. and Maybee, W. G. (2000). The strength of hard-rock pillars. International
Journal of Rock Mechanics and Mining Science 37, 1239 – 1246. (Also mentions: Examine2D.)
38. Martin, C. D., Kaiser, P. K. and Christiansson, R. (2003). Stress, instability and design of
underground excavations. International Journal of Rock Mechanics and Mining Science 40,
1027 – 1047. (Also mentions: Examine3D.)
39. Moosavi, M. and Grayeli, R. (2006). A model for cable bolt-rock mass interaction:
Integration with discontinuous deformation analysis (DDA) algorithm. International Journal
of Rock Mechanics and Mining Science 43, 661 – 670.
40. Özsan, A. Basarir, H., Yüceel, S. and Cücen, Ö. (2009). Engineering geological evaluation and
preliminary support design for the metro extension tunnel, Ankara, Turkey. Bulletin of
Engineering Geology and the Environment.
41. Özsan, A., Karpuz, C. (2001). Preliminary support design for Ankara subway extension
tunnel. Engineering Geology, 59, 1-2, 161-172.
42. Panthi, K. K. and Nilsen, B. (2006). Numerical analysis of stresses and displacements for the
Tafjord slide, Norway. Bulletin of Engineering Geology and the Environment 65, 57 – 63.
43. Peila, D., Guardini, C. and Pelizza, S. (2008). Geomechanical design of a room and rib pillar
granite mine. Journal of University of Science and Technology Beijing 15, 97 – 103. (Also
mentions: Dips & Unwedge.)
44. Prudencio, M. and Van Sint Jan, M. (2007). Strength and failure modes of rock mass models
with non-persistent joints. International Journal of Rock Mechanics and Mining Science 44,
890 – 902.
45. Rasouli, M. (2009). Engineering geological studies of the diversion tunnel, focusing on
stabilization analysis and support design, Iran. Engineering Geology, 108, 3-4, 208-224. (Also
mentions: Dips.)
46. Repetto, L., Tuninetti, A., Guglielmetti, V. and Russo, G. (2006). Shield tunneling in sensitive
areas: A new design approach for the optimization of the construction-phase management .
Tunnelling and Underground Space Technology 21, 270.
47. Sari, D. and Pasamehmetoglu, A. G. (2004). Proposed support design, Kaletepe tunnel,
Turkey. Engineering Geology 72, 201 – 216.
48. Sari, Y. D., Pasamehmetoglu, A. G., Centiner, E. and Donmez, S. (2008). Numerical Analysis of
a Tunnel Support Design in Conjunction with Empirical Methods. International Journal of
Geomechanics 8, 74 – 81.
49. Seedsman, R. W. (2001). Geotechnical sedimentology - its use in underground coal mining.
International Journal of Coal Geology 45, 147 – 153.
50. Sharan, S. K. (2007). A finite element perturbation method for the prediction of rockburst.
Computers and Structures 85, 1304 – 1309.
51. Sharan, S. K. (2003). Elastic-brittle-plastic analysis of circular openings in Hoek-Brown
media. International Journal of Rock Mechanics and Mining Science 40, 817 – 824.
52. Sofianos, A. I. and Halakatevakis, N. (2002). Equivalent tunnelling Mohr–Coulomb strength
parameters for given Hoek–Brown ones. International Journal of Rock Mechanics and Mining
Science 39, 131 – 137. (Also mentions: RocSupport.)
53. Sopaci, E., Akgün, H. (2008). Engineering geological investigations and the preliminary
support design for the proposed Ordu Peripheral Highway Tunnel, Ordu, Turkey.
Engineering Geology, 96, 1-2, 43-61.
54. Suorineni, F. T., Chinnasane, D. R. and Kaiser, P. K. (2008). A Procedure for Determining
Rock-Type Specific Hoek-Brown Brittle Parameter s. Rock Mechanics and Rock Engineering.
55. Ghiasi, V., Omar, H., Huat, B., Muniandi, R., Yusof, Z. (2011). Risk management overview of tunnels using numerical modeling. Journal of Engineering, Design and Technology, 9, 110 – 124.
56. Vlachopoulos, N. and Diederichs, M. S. (2009). Improved Longitudunal Displacement
Profiles for Convergence Confinement Analysis of Deep Tunnels. Rock Mechanics and Rock
Engineering.
57. Vyazmensky, A., Stead, D., Elmo, D., Moss, A. (2010). Numerical Analysis of Block Caving-Induced Instability in Large Open Pit Slopes: A Finite Element/Discrete Element Approach. Rock Mechanics and Rock Engineering, 43, 1, 21-39.
58. Zeng, J., Sheng, Q., Yang, C. (2006). Numerical emulation analysis of rock bolt crane in
underground powerhouse beam during construction and running periods. Yanshilixue Yu
Gongcheng Xuebao/Chinese Journal of Rock Mechanics and Engineering, v 25, n SUPPL. 1,
3051-3056.
59. Zhang, Y. and Mitri, H. S. (2008). Elastoplastic stability analysis of mine haulage drift in the
vicinity of mined stopes. International Journal of Rock Mechanics and Mining Science 45, 574
– 593.
60. Zsáki, A. M. and Curran, J. H. (2005). A continuum mechanics-based framework for
boundary and finite element mesh optimization in two dimensions for application in
excavation analysis. International Journal for Numerical and Analytical Methods in
Geomechanics 29, 369 – 393. (Also mentions: Examine2D.)
CONFERENCES 1. Agharazi, A., Tannant, D. and Jafari, A. (2008). Stress and tunnel geometry effects on
deformation modulus derived from plate load tests. 61st Canadian Geotechnical Conference
and the 9th Joint CGS/IAH-CNC Groundwater Conference, Sept. 21 - 24, Edmonton.
2. Alber, M. and Fritschen, R. (2009). Rock Mechanics Investigations on Seismic Events
Around Two Longwall Coal Operations. 27th International Conference on Ground Control in
Mining, July 28 - 30, Morgantown, West Virginia. (Also mentions: Examine3D.)
3. Aubertin, M., Li., L., Arnoldi, S., Belem, T., Bussière, B., Benzaazoua, M. and Simon, R. (2003).
Interaction Between Backfill and Rock Mass in Narrow Stopes. Soil Rock America 2003:
Proceedings of the 12th Panamerican Conference on Soil Mechanics & Geotechnical
Engineering and the 39th U.S. Rock Mechanics Symposium, June 22 - 26, Boston,
Massachusetts.
4. Badelow F., Best R., Bertuzzi R., Maconochie D. (2005). Modelling of Defect And Rock Bolt Behaviour In Geotechnical Numerical Analysis For Lane Cove Tunnel. AGS AUCTA Mini-Symposium: Geotechnical Aspects of Tunnelling For Infrastructure Projects. October 12, Sydney.
5. Bagheri, M. and Shafiezadeh, N. (2006). Continuum Modeling of Masjed E Soleyman Power House Cavern Using an Empirical Continuum Media. Proceedings of the 41st U.S. Symposium on Rock Mechanics (USRMS), 06-904. June 17 – 21, Golden, Colorado.
6. Bahrani, N., Suorineni, F.T., Maloney, S. (2010). Pillar stability assessment approach for
mechanized and drill and blast excavations. 44th US Rock Mechanics Symposium and the 5th
US/Canada Rock Mechanics Symposium. June 27 – 30, Salt Lake City, Utah.
7. Banyar et al. (2010). Stability Analysis and Support Design of Manipura Diversion Tunnels
in Myanmar. ISRM International Symposium - 6th Asian Rock Mechanics Symposium. October
23 - 27, New Delhi, India.
8. Bedi et al. (2007). Finite element modelling of load shed and non-linear buckling solutions
of confined steel tunnel liners. ANZ Geomechanics Conference. October, Brisbane.
9. Byington, C. B. (2004). SOMA: A New Method to Calculate the Operative Stress Field:
Results from the Laurel Mountain Mine, Russell Co., Virginia. 23rd International Conference
on Ground Control in Mining, Aug 3 - 5, Morgantown, West Virginia. (Also mentions: Dips.)
10. Careddu, N., Siotto, G., Tuveri A. (2010). Evolution of a marble quarry: from open cast to
underground exploitation. Global Stone Congress, March 2 – 5, Alicante, Spain. (Also
mentions: Swedge and Unwedge.)
11. Carranza-Torres, C. and Zhao, J. (2008). The effect of ground drainage on the mechanical
response of deep lined tunnels excavated in elastic and elasto-plastic materials. The 12th
International Conference of International Association for Computer Methods and Advances in
Geomechanics (IACMAG), Oct. 1 - 6, Goa.
12. Cordova, E.A., Nelson, M.G. (2010). Open pit and underground mine interaction with
phase2. 44th US Rock Mechanics Symposium and the 5th US/Canada Rock Mechanics
Symposium. June 27 – 30, Salt Lake City, Utah.
13. Crowder, J. J., Coulson, A. L. and Bawden, W. F. (2006). The Field-Scale Rock Mechanics
Laboratory: Estimation of Post-Peak Parameters and Behaviour of Fractured Rock Masses.
Proceedings of the 41st U.S. Symposium on Rock Mechanics (USRMS), June 17 - 21, Golden,
CO. (Also mentions: Examine3D.)
14. Egglezos, D., Moullou, D. and Mavromatti, D. (2008). Geostructural analysis of the Athenian
Acropolis wall based on terrestrial laser scanning data. International Society for
Photogrammetry and Remote Sensing Congress, July 3 - 11, Beijing.
15. Ferentinou, M. D., Sakellariou, M., Matziaris, V. and Charalambous, S. (2006). An Introduced
Methodology for Estimating Landslide Hazard for Seismic and Rainfall Induced Landslides
in a Geographical Information System Environment. 2006 ECI Conference on Geohazards,
June 18 - 21, Lillehammer. (Also mentions: Slide.)
16. Filipponi, M. (2008). The stability of large chambers in karst caves - A case study on the
Abisso di Trebiciano (Trieste; Italy). European Geosciences Union General Assembly 2008,
April 13 - 18, Vienna.
17. Foo, B., Pakalnis, R. (2007). Numerical modeling analysis for São Bento Mineração S/A,
Santa Bárbara, MG, Brazil. Proceedings of the 1st Canada-US Rock Mechanics Symposium -
Rock Mechanics Meeting Society's Challenges and Demands, May 27 -31, Vancouver, Canada.
Vol 2, 1337-1345.
18. Gerçek, H. (2005). Interaction Between Parallel Underground Openings. The 19th
International Mining Congress and Fair of Turkey, June 9 - 12, İzmir.
19. Hadjigeorgiou, J., Kyriakou, E. and Papanastasiou, P. (2006). A road embankment failure
near Pentalia in Southwest Cyprus. International Symposium on Stability of Rock Slopes in
Open Pit Mining and Civil Engineering Situations, April, Cape Town. (Also mentions: Slide.)
20. Hagan, PC. (2004). Variation in load transfer of a fully encapsulated rockbolt. Proceedings
23rd international conference on ground control in mining. Morgantown, Australia.
21. Jiang, Xin. (2009). A comparative study of various commercially available programs for
numerical analysis of reinforced soil. Proceedings of the 2nd International Conference on
Transportation Engineering, ICTE, 345, 753-758.
22. Joubert, J. S. C., Freeman, L. A., Terbrugge, P. J. and Venter, J. (2008). The Koidu Vertical Pit -
Sierra Leone. The International Conference on Surface Mining, Aug. 5 - 8, Johannesburg. (Also
mentions: Examine3D.)
23. Kaya, A. and Bulut, F. (2008). Geotechnical Investigation of the Konakonu Tunnel,
Trabzon, Turkey. 33rd International Geological Congress, Abstracts, June, Oslo.
24. Latilla, J. W. (2004). Weak Floors and their Influence on Pillar Stability in Southern African
Collieries. SANIRE 2004 – The Miner’s Guide through the Earth’s Crust, South African National
Institute of Rock Engineering, Sept. 16, Potchefstroom.
25. Lertsgoon, P. N. (2003). Prediction versus actual response of rocks in an excavation of
underground cavern at the Lam Ta Khong Pumped Storage Project. Proceedings - Rapid
Excavation and Tunneling Conference, New Orleans.
26. Loftsson, M., Jóhannsson, Æ. and Erlingsson, E. (2005). KÁRAHNJÚKAR HYDROELECTRIC
PROJECT - POWERHOUSE CAVERN Successful excavation despite complex geology and
stress induced stability problems. Fjellsprengningsteknikk Bergmekanikk/Geoteknikk. (Also
mentions: Examine3D.)
27. Martin, C. D., Tannant, D. D., Yazici, S. and Kaiser, P. K. (1999). Stress path and instability
around mine openings. 9th International Society for Rock Mechanics Congress, Aug. 25 - 28,
Paris. (Also mentions: Examine3D.)
28. Park, D. and Kim, G. (2000). Investigation and analysis of a slope failure in Korea.
International Conference on Geotechnical and Geological Engineering, GeoEng2000, Nov. 19 -
24, Melbourne.
29. Scheldt, T., Lu, M.; Myrvang, A., Hatzor, Y. H. (2002). Numerical analysis of Gjovik Olympic
Cavern; a comparison of continuous and discontinuous results by using Phase (super 2) and
DDA. Stability of rock structures; proceedings of the 5th international conference on Analysis
of discontinuous deformation, Oct. 6 – 10, Israel, pp. 125-131.
30. Sharan, S. K. and Naznin, R. (2008). Finite element analysis of underground openings in
Hoek-Brown rock with dilatancy. 8th. World Congress on Computational Mechanics (WCCM8)
5th. European Congress on Computational Methods in Applied Sciences and Engineering
(ECCOMAS 2008), June 30 - July 5, Venice.
31. Stead et al. (2009). Characterization of debris slope failures: An integrated field based
numerical modelling study. 17th International Conference on Soil Mechanics and
Geotechnical Engineering. October 5 – 9, Alexandria, Egypt.
32. Tonon, F. and Amadei, B. (2003). What boundary conditions should we apply? Applications
to tunneling and to the AECL Underground Research Laboratory. ISRM 2003–Technology
roadmap for rock mechanics, South African Institute of Mining and Metallurgy, Sept. 8 - 12,
Gauteng.
33. Valley, B., Suorineni, F.T., Kaiser, P.K. (2010). Numerical analyses of the effect of
heterogeneities on rock failure process. 44th US Rock Mechanics Symposium - 5th US/Canada
Rock Mechanics Symposium. June 27 – 30, Salt Lake City, Utah.
34. Villaescusa, E. and Potvin, Y. (2004). Ground Support in Mining and Underground
Construction. Proceedings of the Fifth International Symposium on Ground Support.
September 28 – 30, Perth, Australia.
35. Yong, S., Kaiser, P. K., Loew, S. and Fidelibus, C. (2008). The Role of Heterogeneity on the
Development of Excavation-Induced Fractures in the Opalinus Clay. 61st Canadian
Geotechnical Conference and the 9th Joint CGS/IAH-CNC Groundwater Conference, Sept. 21 -
24, Edmonton.
36. Zhou, K. and Xia, M. (2009). Numerical Modelling for Designing Tunnel Support in
Heavily Jointed Rock. International Conference on Electronic Computer Technology,
Feb 20 – 22, Macau. 471-474.
OTHERS 1. Asche, H. R., Day, R. A. and Doherty, J. (2000). Model Parameters - How to Avoid Them.
2. Barba, T. F. V. (2008). Numerical Analyses of the Hangingwall at the Kiirunavaara Mine.
Thesis, Ph.D. - Luleå University of Technology.
3. Barla, M. (1999). Tunnels in Swelling Ground. Thesis, Ph.D. - Politecnico di Torino. (Also
mentions: Examine3D.)
4. Clausen, J. (2007). Efficient Non-Linear Finite Element Implementation of Elasto-Plasticity
for Geotechnical Problems. Thesis, Ph.D. - Aalborg University.
5. Coulter, S. and Martin, C. D. (2004). Ground Deformations Above a Large Shallow Tunnel
Excavated Using Jet Grouting.
6. Crowder, J. J. and Bawden, W. F. (2004). Review of Post-Peak Parameters and Behaviour of
Rock Masses: Current Trends and Research. (Also mentions: Examine3D, RocData & RocLab.)
7. Crowder, J. J. and Bawden, W. F. (2006). The Estimation of Post-Peak Rock Mass Properties:
Numerical Back Analysis Calibrated using In Situ Instrumentation Data. (Also mentions:
Examine3D.)
8. Edelbro, C. (2008). Strength, fallouts and numerical modelling of hard rock masses. Doctoral
Thesis, Luleå University of Technology. (Also mentions: ExamineTAB.)
9. Martin, D. (2005). Preliminary assessment of potential underground stability (wedge and
spalling) at Forsmark, Simpevarp and Laxemar sites. Technical Report. (Also mentions:
Unwedge.)
10. Maybee, W. G. (2000). Pillar Design in Hard Brittle Rocks. Thesis, M.A.S. - Laurentian
University. (Also mentions: Examine2D.)
11. Repetto, L., Tuninetti, A., Guglielmetti, V. and Russo, G. (2006). Shield tunnelling in sensitive
areas: a new design procedure for optimisation of the construction-phase management .
12. Sainsbury, D., Itasca Consulting Group Inc. (2006). Technical Review — Crown Pillar
Subsidence and Hydrologic Stability Assessment for the Proposed Eagle Mine. Technical
Report. (Also mentions: CPillar.)
13. Scheldt, T. (2003). Comparison of continuous and discontinuous modelling for computational
rock mechanics. Thesis, Fakultet for ingeniørvitenskap og teknologi.
ROCDATA
JOURNALS 1. Chandra, S., Nilsen, B., Lu, M. (2010). Predicting excavation methods and rock support: a
case study from the Himalayan region of India. Bulletin of Engineering Geology and the
Environment, 69, 257 - 266.
2. Latha, G. and Garaga, A. (2010). Seismic Stability Analysis of a Himalayan Rock Slope. Rock
Mechanics and Rock Engineering, 43, 831 - 843.
3. Omar, H., Pauzi, N., Abu-Shariah, M., Yusof, Z. and Maail, S. (2009). Microcracks Pattern and
the Degree of Weathering in Granite. Electronic Journal of Geotechnical Engineering, 14, 21
pages [online].
4. Thompson, N., Watters, R. J. and Schiffman, P. (2008). Stability analysis of Hawaiian Island
flanks using insight gained from strength testing of the HSDP core. Journal of volcanology
and geothermal research 171, 163 – 177. (Also mentions: Slide.)
CONFERENCES 1. Boonbatr, A. and Fuenkajorn, K. (2011). Design and Analysis of Adit for Limestone Quarry
of Siam City Cement Public Company Limited. Proceedings of the Third Thailand Symposium
On Rock Mechanics, March 10 – 11, Cha-Am Beach, Thailand.
2. Curtaz M., Ferrero A., Segalini A. (2010). Study of the stability analysis of rock slopes on the
Alps. ISRM 6th Asian Rock Mechanics Symposium, Oct. 23 - 27, New Delhi, India. (Also
mentions: Dips & RocLab.)
3. Hassani, H., Arshadnejad, S., Sarkheil, H. (2009). Behavior Of Pop-Up Structures In Thrust
Wedges On The Right Pressure Shaft Collapse Of Siah Bisheh Dam, North Iran. Proceedings
of the International Conference on Rock Joints and Jointed Rock Masses, January 7 - 8, Tucson,
Arizona.
4. Oraee, K., Hosseini, N., Gholinejad, M. (2010). Seismic analysis of horseshoe tunnels under
dynamic loads due to earthquakes. 10th Underground Coal Operators' Conference, Feb. 11 –
12, Wollongong, Australia.
5. Read, S., Richards, L., Perrin, N. (2005). Evaluation of the intact properties of weak rocks for
use in the Hoek-Brown failure criterion. 40th U.S. Symposium on Rock Mechanics (USRMS),
June 25 - 29, Anchorage.
6. Schlotfeldt, P. and Palleske, C. (2009). The Development And Use Of Geomechanics Models
For Use In The Raising Of The Thirsk Arch Dam, Summerland, BC. Canadian Dam Association
2009 Annual Conference, Oct 3 – 8, Whistler, Canada.
OTHERS 1. Crowder, J. J. and Bawden, W. F. (2004). Review of Post-Peak Parameters and Behaviour of
Rock Masses: Current Trends and Research. (Also mentions: Examine3D, Phase2 & RocLab.)
2. Pauzi, M. and Irfah, N. (2007). Shear Strength Characteristics and Microcrack Pattern of
Granite from Pos Selim, Perak, Malaysia. Master’s thesis, Universiti Putra Malaysia.
ROCFALL
JOURNALS 1. Alejano L., Pons B., Bastante F., Alonso E., Stockhausen H. (2007). Slope geometry design as
a means for controlling rockfalls in quarries. International Journal of Rock Mechanics and
Mining Sciences, 44, 903 – 921.
2. Binal, A. and Ercanoglu, M. (2010). Assessment of rockfall potential in the Kula (Manisa,
Turkey) Geopark Region. Environmental Earth Sciences, 61, 1361 – 1373.
3. Borgatti, L. and Tosatti, G. (2010). Slope Instability Processes Affecting the Pietra Di
Bismantova Geosite (Northern Apennines, Italy). Geoheritage, 2, 155 – 168.
4. Budetta, P. (2010). Application of the Swiss Federal Guidelines on rock fall hazard: a case
study in the Cilento region (Southern Italy). Landslides, 9 pages [online].
5. Čarman, M. and Peternel, T. (2010). Rockfalls Stara gora near Dvor in municipality
Žužemberk. Geologija, 53, 173 – 180.
6. Choi, Y., Lee, J., Lee, J. and Park, H. (2009). Engineering geological investigation into rockfall
problem: A case study of the Seated Seokgayeorae Image carved on a rock face at the
UNESCO World Heritage site in Korea. Geosciences Journal 13, 69 – 78.
7. Eyre, S. and McDermott, J. (2010). Design, excavation and performance of rock cuttings on
the Karratha To Tom Price Road, Stage 2. Australian Geomechanics, 45, 93 – 100.
8. Heidenreich B., Labiouse V. (2004). Small-scale experimental study of rockfall impacts on
granular slopes. Italian Journal of Geotechnical Engineering, 2, 80 – 91.
9. Holm, K. and Jakob, M. (2009). Long rockfall runout, Pascua Lama, Chile. Canadian
Geotechnical Journal, 46, 225 – 230.
10. Huang Y., Sun Q., Xu, Q. (2010). New development of rockfall kinematics study. Zhendong
yu Chongji (Journal of Vibration and Shock), 29, 31 – 35.
11. Peila, D., Patrucco, M., Falanesca, M. (2011). Quantification and management of rockfall risk
in opencast quarrying activities. Environmental & Engineering Geoscience, 17, 39 – 51. (Also
mentions: Swedge.)
12. Tagliavini, F., Reichenbach, P., Maragna, D., Guzzetti, F., and Pasuto, A. (2009). Comparison
of 2-D and 3-D computer models for the M. Salta rock fall, Vajont Valley, northern Italy.
GeoInformatica, 13, 323 – 337.
13. Topal, T., Akin, M. and Ozden, U. A. (2007). Assessment of rockfall hazard around Afyon
Castle, Turkey. Environmental Geology 53, 191 – 200.
14. Tunusluoglu, M. and Zorlu, K. (2009). Rockfall hazard assessment in a cultural and natural
heritage (Ortahisar Castle, Cappadocia, Turkey). Environmental Geology, 56, 963 – 972.
15. Ulusay, R., Gokceoglu, C., Topal, T., Sonmez, H., Tuncay, E., Erguler, Z. A. and Kasmer, O.
(2006). Assessment of environmental and engineering geological problems for the possible
re-use of an abandoned rock-hewn settlement in Urgup (Cappadocia), Turkey.
Environmental Geology, 50, 473 – 494.
16. Yesiloglu-Gultekin, N., Gokceoglu, C., Sonmez, H. (2011). Geohazard reconnaissance
mapping for a settlement area. Environmental Earth Sciences, 48, 1 – 14.
17. Yilmaz, I., Yildirim, M., and Keskin, I. (2008). A method for mapping the spatial distribution
of RockFall computer program analyses results using ArcGIS software. Bulletin of
Engineering Geology and the Environment, 67, 547-554.
18. Zorlu K., Tunusluoglu M., Gorum T., Nefeslioglu H., Yalcin A., Turer D., Gokceoglu C.
(2011). Landform effect on rockfall and hazard mapping in Cappadocia (Turkey).
Environmental Earth Sciences, 62, 1685 – 1693.
CONFERENCES 1. Devoto S., Castelli E., Boccali C., Podda F. (2011). Rock fall analysis: a case study in the
eastern Alps (Italy). European Geosciences Union General Assembly, April 3 – 8, Vienna,
Austria.
2. Jafari M., Ashtiani M. and Palasi M. (2010). A general investigation on slope stability at
Khersan III hydropower plant using numerical modeling. The 44th U.S. Rock Mechanics
Symposium & 5th U.S.-Canada Symposium, June 27 - 30, Salt Lake City.
3. Lainas, S., Koulouris S., Vagenas S., Depountis N., Sabatakakis, N., Koukis, G. (2010).
Earthquake-induced rockfalls in Santomeri village, Western Greece. 12th International
Congress of the Geological Society of Greece, May 19 – 22, Patras, Greece.
4. Lin M., Wang K., Lin S., Chen C. (2010). A pseudo-3D rock fall scenario and risk assessment
model–case study of Danfon site, Taipei. European Geosciences Union General Assembly, May
2 – 7, Vienna, Austria.
5. Loupasakis, C., Galanakis, D., Rozos, D. (2010). Rock slope stability problems in natural
sightseeing areas – an example from Arvanitia, Nafplio, Greece. 12th International Congress
of the Geological Society of Greece, May 19 – 22, Patras, Greece.
6. Mahboubi, A., Aminpour, A. and Noorzad, A. (2008). Conventional and Advanced Numerical
Methods of Rock Slope Stability Analysis, A Comparison Study, Gotvand Dam Right
Abutment (Iran) Case Study. The 12th International Conference of International Association
for Computer Methods and Advances in Geomechanics (IACMAG), Oct. 1 - 6, Goa. (Also
mentions: Dips & Swedge.)
7. Massey, C., Hodgson, I., Petley, D. (2006). A rockfall simulation study for housing
development in Gibraltar. Proceedings of the 10th IAEG Congress, Sept. 6 – 10, Nottingham.
8. Pantelidis, L. (2010). Rock Catchment Area Design Charts. GeoFlorida 2010: Advances in
Analysis, Modeling, & Design: Proceedings of the GeoFlorida 2010 Conference, Feb 20 – 24,
West Palm Beach.
9. Papathanassiou, G., Valkaniotis S. and Chatzipetros A. (2010). Rockfall susceptibility
zoning and evaluation of rockfall hazard at the foot hill of mountain Orliagas, Greece. 19th
Congress of the Carpathian-Balkan Geological Association (CBGA), Sept. 23 – 26, Thessaloniki,
Greece.
10. Richards, L., Peng, B., Bell, D. (2001). Laboratory and Field Evaluation of the Normal
Coefficient of Restitution for Rocks. Rock mechanics: a challenge for society : proceedings of
the ISRM Regional Symposium Eurock, June 4 – 7, Espoo, Finland.
11. Sadagah, B. (2010). Rockfalls Risk Reduction And Redesign Of Rock Slopes Using Rocfall
Program. ISRM International Symposium - 6th Asian Rock Mechanics Symposium, Oct. 23 - 27,
New Delhi.
12. Stead, D., Eberhardt, E., Coggan, J. and Benko, B. (2001). Advanced numerical techniques in
rock slope stability analysis - applications and limitations. Landslides - Causes, Impacts and
Countermeasures, June 17 - 21, Davos. (Also mentions: Dips & Swedge.)
OTHERS 1. Eberhardt, E. (2003). Rock Slope Stability Analysis - Utilization of Advanced Numerical
Techniques. Lecture Notes. (Also mentions: Dips, RocPlane, Slide & Swedge.)
2. Gwynn, X. (2009). Assessment of Remote Data Capture Systems for the Characterisation of
Rock Fracture Networks within Slopes. Thesis, Ph.D. – University of Exeter.
3. Musakale, F. (2006). Influence of bench geometries on rockfall behaviour in open pit mines.
Thesis, University of the Witwatersrand.
ROCLAB
JOURNALS 1. Akgün, H. and Koçkar, M.K. (2004). Design of anchorage and assessment of the stability of
openings in silty, sandy limestone: a case study in Turkey. International Journal of Rock
Mechanics and Mining Sciences, 41, 37 – 49.
2. Azali, S., Ghafoori, M., Lashkaripour, G. (2010). Preliminary Support Design for a Diversion
Tunnel at Daroongar Dam Site, NE Iran. Middle-East Journal of Scientific Research, 5, 65-74.
3. Basarir, H. (2006). Engineering geological studies and tunnel support design at Sulakyurt
dam site, Turkey. Engineering Geology 86, 225 – 237. (Also mentions: Dips & Phase2.)
4. Basarir, H., Ozsan, A. and Karakus, M. (2005). Analysis of support requirements for a
shallow diversion tunnel at Guledar dam site, Turkey. Engineering Geology 81, 131 – 145.
(Also mentions: Phase2.)
5. Budetta, P. (2011). Stability of an undercut sea-cliff along a Cilento coastal stretch
(Campania, Southern Italy). Natural Hazards, 56, 233 – 250.
6. Budetta, P. and Nappi, M. (2011). Heterogeneous rock mass classification by means of the
geological strength index: the San Mauro formation (Cilento, Italy). Bulletin of Engineering
Geology and the Environment, 1-9.
7. Çanakcı, H. and Güllüa, H. (2009). Development of a hazard assessment model for near
surface caves in limestone. Engineering Geology, 105, 102 – 107.
8. Cho, N., Martin, C. D. and Sego, D. C. (2007). A clumped particle model for rock.
International Journal of Rock Mechanics and Mining Science 44, 997 – 1010.
9. Coli, M., Livi, E., Tanini, C. (2006). Pietra Serena mining in Fiesole, Part III: Structural-
mechanical characterization and mining. Journal of Mining Science, 42, 74 – 84.
10. Edelbro, C. (2010). Different approaches for simulating brittle failure in two hard rock
mass cases: a parametric study. Rock mechanics and rock engineering, 43, 151 – 165.
11. Elmo, D. and Stead, D. (2009). An Integrated Numerical Modelling–Discrete Fracture
Network Approach Applied to the Characterisation of Rock Mass Strength of Naturally
Fractured Pillars. Rock Mechanics and Rock Engineering.
12. Kinakin, D. and Stead, D. (2005). Analysis of the distributions of stress in natural ridge
forms: implications for the deformation mechanisms of rock slopes and the formation of
sacking. Geomorphology, 65, 85 – 100.
13. Kincal, C., Koca, M., Yilmaz, H., Akgün, M., Özyalin, S., Eskişar, T., Akçiğ, Z., van Loon, A.
(2010). Engineering-geological and geotechnical investigations for risk assessment of the
University Olympic Village in Izmir (Turkey). Geologos, 16, 43 – 57.
14. Lin, D., Shang, Y., Wu, F., Zhang, W., Zhang, X. (2011). Study Of Geological Strength Index For
Granite Based On Mineral Structure And Drilling And Its Application. Chinese Journal of Rock
Mechanics and Engineering [Online].
15. Marinos, V., Marinos, P., Hoek, E. (2005). The geological strength index: applications and
limitations. Bulletin of Engineering Geology and the Environment, 64, 55 – 65.
16. Ocepek, D. (2005). New Trends in Rock Mass Characterization for Designing Geotechnical
Structures. Acta Geotechnica Slovenica, 2, 39 – 51.
17. Pine, R., Coggan, J., Flynn, Z., Elmo, D. (2006). The development of a new numerical
modelling approach for naturally fractured rock masses. Rock Mechanics and Rock
Engineering, 39, 395 – 419.
18. Schwingenschloegl, R. and Lehmann, C. (2009). Swelling rock behaviour in a tunnel:
NATM-support vs. Q-support-A comparison. Tunnelling and Underground Space Technology,
24, 356 – 362.
19. Stacey, T. R., Xianbin, Y., Armstrong, R. and Keyter, G. J. (2003). New slope stability
considerations for deep open pit mines. The Journal of The South African Institute of Mining
and Metallurgy 103, 373 – 389.
20. Stead, D., Eberhardt, E. and Coggan, J. S. (2006). Developments in the characterization of
complex rock slope deformation and failure using numerical modelling techniques.
Engineering Geology 83, 217 – 235. (Also mentions: Dips & Swedge.)
21. Vosoughifar, H. and Daneshkhah, A. (2009). Numerical Evaluating Of Effective And
Behavior Of Balancing Reservoir Of Water Hummer On Water Tunnels Lining To Turbine In
Concrete Dams. Journal Of Water Sciences Research, 1, 29 – 34. (Also mentions: RocPlane.)
22. Vyazmensky, A., Stead, D., Elmo, D. and Moss, A. (2009). Numerical Analysis of Block
Caving-Induced Instability in Large Open Pit Slopes: A Finite Element/Discrete Element
Approach. Rock Mechanics and Rock Engineering.
CONFERENCES 1. Arad, S., Arad, V., Veres, J., Stoicuta, O. (2008). Safety Excavation in Salt Rock Used for
Underground Storage in Romania. Proceedings of the 25th International Symposium on
Automation and Robotics in Construction, June 27 – 29, Vilnius, Lithuania. (Also mentions:
Examine2D.)
2. Curtaz M., Ferrero A., Segalini A. (2010). Study of the stability analysis of rock slopes on the
Alps. ISRM 6th Asian Rock Mechanics Symposium, Oct. 23 - 27, New Delhi, India. (Also
mentions: Dips & RocData.)
3. Esterhuizen, G. and Ellenberger, J. (2007). Effects of weak bands on pillar stability in stone
mines: field observations and numerical model assessment. Proceedings of the 26th
International Conference on Ground Control in Mining, July 31 - August 2, Morgantown, West
Virginia.
4. Gates, W. (2010). Geotechnical Considerations For Design of Soil Nail Walls In Rock Slopes,
I-405 Freeway, Sepulveda Pass, Los Angeles, California. 44th U.S. Rock Mechanics Symposium
and 5th U.S.-Canada Rock Mechanics Symposium, June 27 - 30, Salt Lake City.
5. Gibson, W.H. (2005). Rock Mass Strength derived from Rock Mass Characterization. 40th
U.S. Symposium on Rock Mechanics (USRMS), June 25 - 29, Anchorage.
6. Hashemi, M., Ghazifard, A., Alian, V. (2008). The Stability Analysis of Rock Mass
Surrounding the Inlet Section of Gardaneh Rokh Tunnel Using Empirical and Numerical
Method, Shahrekord-Esfahan Highway. The 12th International Conference of International
Association for Computer Methods and Advances in Geomechanics (IACMAG), 1-6 October,
Goa, India.
7. Helm, P., Davie, C., Glendinning, S. (2008). Numerical modelling of the stability of shallow
mine workings. Advances in transportation geotechnics: proceedings of the 1st International
Conference on Transportation Geotechnics, 25 – 27 August, Nottingham, UK.
8. Hormazabal, E., Villegas, F., Rovira, F., Carranza-Torres, C. (2010). Geomechanical
evaluation of caving macro-block options at Chuquicamata Underground Project in Chile
using three-dimensional numerical modeling. Second International Symposium on Block and
Sublevel Caving, April 20 – 22, Perth, Australia.
9. Kaiser, P. K. and Kim, B. (2008). Rock Mechanics Advances for Underground Construction
in Civil Engineering and Mining. Rock Mechanics Aspects of Underground Construction and
Mining, Oct. 21 - 23, Korea. (Also mentions: Unwedge.)
10. Koçkar, M. and Akgün, H. (2005). Tunnel and portal stability assessment in weak rock.
Underground Space Use: Analysis of the Past and Lessons for the Future, May 7 – 12, Istanbul.
11. Lee, S., Jeong, G., Chung, S., Chun, B. (2008). Geological investigation and support design of
tunnel located in limestone area. ITA-AITES World Tunnel Congress - Underground Facilities
for Better Environment and Safety, Sept. 19 – 25, Agra, India.
12. Pine, R. (2006). A hybrid approach to modelling blocky rock masses using a discrete
fracture network and finite/discrete element combination. 41st U.S. Symposium on Rock
Mechanics (USRMS), June 17 - 21, Golden, Colorado.
13. Sahebi, A., Jalalifar, H., Ebrahimi, M. (2010). Stability analysis and optimum support design
of a roadway in a faulted zone during longwall face retreat-case study: Tabas Coal Mine.
Underground Coal Operators' Conference, Feb. 11 – 12, Wollongong, Australia.
14. Saiang, D. and Nordlund, E. (2007). Failure mechanisms around shallow tunnels in brittle
rock. 11th Congress of the International Society for Rock Mechanics: The Second Half Century
of Rock Mechanics, Sept. 9 – 13, Lisbon.
15. Sopaci, E., Akgiin, H., Akinci, M. (2005). Rock mass characterization and primary support
design for the Boztepe Tunnel, Turkey. Underground Space Use: Analysis of the Past and
Lessons for the Future, May 7 – 12, Istanbul.
16. Thomas, S. J., Napier, J. A. L. and Lilly, P. A. (2003). Confinement dependence on cohesion
weakening. ISRM 2003–Technology roadmap for rock mechanics, South African Institute of
Mining and Metallurgy, 2003, Sept. 8 - 12, Gauteng.
OTHERS 1. Bondarchuk, A. (2008). Rock Mass Behavior under Hydropower Embankment Dams Results
from Numerical Analyses. Thesis, Ph.D. - Luleå University of Technology.
2. Crowder, J. J. and Bawden, W. F. (2004). Review of Post-Peak Parameters and Behaviour of
Rock Masses: Current Trends and Research. (Also mentions: Examine3D, Phase2 & RocData.)
3. Kaiser, P. and Kim, B. (2008). Rock Mechanics Challenges In Underground Construction And
Mining. Newsletter – Australian Centre For Geomechanics, 31, 1-5.
4. Shatnawi, E. S. (2008). Development of P-Y Criterion for Anisotropic Rock and Cohesive
Intermediate Geomaterials. Thesis, Ph.D. - University of Akron.
5. Töyrä, J. (2006). Behaviour and Stability of Shallow Underground Constructions. Thesis,
Ph.D. - Luleå University of Technology. (Also mentions: Examine2D.)
ROCPLANE
JOURNALS 1. Brideau, M., Yan, M. and Stead, D. (2009). The role of tectonic damage and brittle rock
fracture in the development of large rock slope failures. Geomorphology 103, 30 – 49. (Also
mentions: Slide & Swedge.)
2. Gurung, N., Haneberg, W., Ramana, G., Datta, M. (2011). Engineering Geology and Stability
of the Laprak Landslide, Gorkha District, Western Nepal. Environmental & Engineering
Geoscience, 17, 23 – 38.
3. Low, B. K. (2007). Reliability analysis of rock slopes involving correlated nonnormals.
International Journal of Rock Mechanics and Mining Science 44, 922 – 935.
4. Salvini, R., Francioni, M., Riccucci, S., Fantozzi, P., Bonciani, F., Mancini, S. (2011). Stability
analysis of “Grotta delle Felci” Cliff (Capri Island, Italy): structural, engineering–geological,
photogrammetric surveys and laser scanning. Bulletin of Engineering Geology and the
Environment, 1 – 9.
5. Styles, T., Coggan, J., Pine, R. (2011). Back analysis of the Joss Bay Chalk Cliff Failure using
numerical modeling. Engineering Geology, 120, 81 – 90.
6. Vosoughifar, H. and Daneshkhah, A. (2009). Numerical Evaluating Of Effective And
Behavior Of Balancing Reservoir Of Water Hummer On Water Tunnels Lining To Turbine In
Concrete Dams. Journal Of Water Sciences Research, 1, 29 – 34. (Also mentions: RocLab.)
CONFERENCES 1. Alber, M. and Ruhl, S. (2005). Load capacity of fully grouted rock bolts in shale. Proceedings
of the International Symposium of the International Society for Rock Mechanics (EUROCK
2005), May 18 – 20, Brno, Czech Republic.
2. Andrade, P. and Saraiva, A. (2006). Stability analysis of road slopes in central Portugal.
10th International Congress of the International Association for Engineering Geology, Sept.
6 – 10, Nottingham, UK. (Also mentions: Swedge.)
3. Chatzigogos N., Makedon T., Tsotsos S. (2007). The mechanical behaviour of gneisseous
rocks and selection of strength parameters for stability analysis of excavated
slopes. Proceedings 1st Sri Lankan Geotechnical Society International Conference on Soil and
Rock Engineering, Aug 7 – 11, Colombo. (Also mentions: Dips and Swedge.)
4. Gates, W., Ortiz, L., Florez, R. (2005). Analysis of Rockfall and Blasting Backbreak Problems,
US 550, Molas Pass, CO. 40th U.S. Symposium on Rock Mechanics (USRMS), June 25 - 29,
Anchorage.
5. Hashemi, M., Ajalloeian, R., Salehi M. (2010). The 3D Stability Analysis Of Rock Mass
Surrounding Bazoft Dam Diversion Tunnel. ISRM International Symposium - 6th Asian Rock
Mechanics Symposium, Oct. 23 - 27, New Delhi, India.
6. Mountjoy, J. and Pettinga, J. R. (2006). Controls on Large Deep-seated Landslides in Soft
Rock Terrain: Rock Mass Defects and Seismic Triggering. New Zealand Geotechnical Society
2006 Symposium: Earthquakes and Urban Development, February, Nelson.
7. Nasrallah, J., Monte, J., Kemeny, J. (2004). Rock Mass Characterization for Slope/Catch
Bench Design using 3D Laser and Digital Imaging. 6th North America Rock Mechanics
Symposium (NARMS), June 5 - 9, Houston. (Also mentions: Swedge.)
8. Thapa, B., McRae, M., Marcher, T., Sander, H. (2008). Design of NATM Initial Support on the
Caldecott 4th Bore. 42nd U.S. Rock Mechanics Symposium (USRMS), June 29 - July 2, San
Francisco.
OTHERS 1. Eberhardt, E. (2003). Rock Slope Stability Analysis - Utilization of Advanced Numerical
Techniques. Lecture Notes. (Also mentions: Dips, RocFall, Slide & Swedge.)
2. Koronakis, N., Kontothanassis, P. and Bournazos, J. (2004). Special Design Methods for
Construction of Tunnel Portals in Areas with Extremely Steep Morphology.
ROCSUPPORT
JOURNALS 1. Carranza-Torres, C. and Diederichs, M. (2009). Mechanical analysis of circular liners with
particular reference to composite supports. For example, liners consisting of shotcretes and
steel sets. Tunnelling and Underground Space Technology 24, 506 – 532. (Also mentions:
Phase2.)
2. Sofianos, A. I. (2003). Tunnelling Mohr-Coulomb strength parameters for rock masses
satisfying the generalized Hoek-Brown criterion. International Journal of Rock Mechanics
and Mining Science 40, 435 – 440.
3. Sofianos, A. I. and Halakatevakis, N. (2002). Equivalent tunnelling Mohr–Coulomb strength
parameters for given Hoek–Brown ones. International Journal of Rock Mechanics and Mining
Science 39, 131 – 137. (Also mentions: Phase2.)
SLIDE
JOURNALS 1. Abbaszadeh, M., Shahriar, K., Sharifzadeh, M. and Heydari, M. (2011). Uncertainty and
Reliability Analysis Applied to Slope Stability: A Case Study From Sungun Copper Mine.
Geotechnical and Geological Engineering, 1-16.
2. Brandon, T. L., Wright, S. G. and Duncan, J. M. (2008). Analysis of the Stability of I-Walls
with Gaps between the I-Wall and the Levee Fill. Journal of Geotechnical and
Geoenvironmental Engineering 134, 692 – 700.
3. Brideau, M., Yan, M. and Stead, D. (2009). The role of tectonic damage and brittle rock
fracture in the development of large rock slope failures. Geomorphology 103, 30 – 49. (Also
mentions: RocPlane & Swedge.)
4. Castellón, R. D., Núñez, G. C., Aceves, A. A. (2008). Mechanical instability quantification of
slopes at Cofre de Perote volcano, eastern Mexico. Boletín de la Sociedad Geológica Mexicana
60, 187 – 201.
5. Duncan, J. M., Brandon, T. L., Wright, S. G. and Vroman, N. (2008). Stability of I-Walls in New
Orleans during Hurricane Katrina. Journal of Geotechnical and Geoenvironmental
Engineering 134, 681 – 691.
6. Gao C., Song Z., Shan R. (2010). The slope stability of dump analysis based on SLIDE and
Plaxis. Microcomputer Information 33, 261 – 262.
7. Kaunda, R. B., Chase, R. B., Kehew, A. E., Kaugars, K. and Selegean, J. P. (2008).
Interpretation of a Progressive Slope Movement Using Balanced Cross Sections and
Numerical Integration. Environmental and Engineering Geosciences 14, 121 – 131.
8. Kohv, M., Hang, T., Talviste, P. and Kalm, V. (2010). Retrogressive slope failure in
glaciolacustrine clays: Sauga landslide, western Estonia. Geomorphology, 124, 229-237.
9. Kohv, M., Hang, T., Talviste, P. and Kalm, V. (2010). Analysis of a retrogressive landslide in
glaciolacustrine varved clay. Engineering Geology, 116, 109 – 116.
10. L’Heureux, J. S., Hansen. L., Longva, O., Emdal, A., & Grande, L. O. (2010). A
multidisciplinary study of submarine landslides at the Nidelva fjord delta, Central Norway -
Implications for the assessment of geohazards. Norwegian Journal of Geology, 90, 1 - 20.
11. Li, A.J., Merifield, R.S. and Lyamin A.V. (2011). Effect of rock mass disturbance on the
stability of rock slopes using the Hoek-Brown failure criterion. Computers and Geotechnics,
38, 546-558.
12. Li, A. J., Lyamin, A. V. and Merifield, R. S. (2009). Seismic rock slope stability charts based on
limit analysis methods. Computers and Geotechnics 36, 135 – 148.
13. Li, A. J., Merifield, R. S. and Lyamin, A. V. (2008). Stability charts for rock slopes based on the
Hoek-Brown failure criterion. International Journal of Rock Mechanics and Mining Science
45, 689 – 700.
14. Neuffer, D. P., Schultz, R. A. and Watters, R. J. (2006). Mechanisms of slope failure on
Pyramid Mountain, a subglacial volcano in Wells Gray Provincial Park, British Columbia.
Canadian Journal of Earth Sciences 43, 147 – 155.
15. Neuffer, D.P. and Schultz, R.A. (2006). Mechanisms of slope failure in Valles Marineris,
Mars. Quarterly Journal of Engineering Geology and Hydrogeology, 39, 227-240.
16. Oztekin, B., Topal, T. and Kolat, C. (2006). Assessment of degradation and stability of a cut
slope in limestone, Ankara-Turkey. Engineering Geology 84, 12 – 30.
17. Sastry, V.R., Chandar, K.R., Santosh, M. (2004). Computer aided slope stability analysis.
Journal of Mines, Metals and Fuels 52, 11, 262 – 268.
18. Strasser, M., Stegmann, S., Bussmann, F., Anselmetti, F. S., Rick, B. and Kopf, A. (2007).
Quantifying subaqueous slope stability during seismic shaking: Lake Lucerne as model for
ocean margins. Marine Geology 240, 77 – 97.
19. Thompson, N., Watters, R. J. and Schiffman, P. (2008). Stability analysis of Hawaiian Island
flanks using insight gained from strength testing of the HSDP core. Journal of volcanology
and geothermal research 171, 163 – 177. (Also mentions: RocData.)
20. Topal, T. and Akin, M. (2009). Geotechnical assessment of a landslide along a natural gas
pipeline for possible remediations (Karacabey-Turkey). Environmental Geology 57, 611 –
620.
CONFERENCES 1. Aryal, K.P. (2008). Differences between LE and FE Methods used in Slope Stability
Evaluations. The 12th International Conference of IACMAG (International Association for
Computer Methods and Advances in Geomechanics), Oct. 1 – 6, Goa, India.
2. Bye, A. and Mossop, D. (2005). Slope Stability Risk Management at Anglo Platinum's
Sandsloot Open Pit. 36th Annual Conference & Exhibition, March 3 - 5, Gauteng.
3. Contreras, L., LeSueur, R. and Maran, J. (2006). A case study of risk evaluation at Cerrejon
Mine. International Symposium on Stability of Rock Slopes in Open Pit Mining and Civil
Engineering Situations, April, Cape Town.
4. Farouz, E., Karnik, B. and Stanley, R. (2005). Use of In Situ Testing to Optimize Slope Design
in Highly Weathered Shale. Proceedings of the 2005 Mid-Continent Transportation Research
Symposium, Ames, Iowa.
5. Ferentinou, M. D., Sakellariou, M., Matziaris, V. and Charalambous, S. (2006). An Introduced
Methodology for Estimating Landslide Hazard for Seismic and Rainfall Induced Landslides
in a Geographical Information System Environment. 2006 ECI Conference on Geohazards,
June 18 - 21, Lillehammer. (Also mentions: Phase2.)
6. Hadjigeorgiou, J., Kyriakou, E. and Papanastasiou, P. (2006). A road embankment failure
near Pentalia in Southwest Cyprus. International Symposium on Stability of Rock Slopes in
Open Pit Mining and Civil Engineering Situations, April, Cape Town. (Also mentions: Phase2.)
7. Hoek, E., Read, J., Karzulovic, A. and Chen, Z. Y. (2000). Rock Slopes in Civil and Mining
Engineering. International Conference on Geotechnical and Geological Engineering,
GeoEng2000, Nov. 19 - 24, Melbourne.
8. Hormazabal, E., Rovira F., Walker, M., Carranza-Torres, C. (2009). Analysis and Design of
Slopes for Rajo Sur, an Open Pit Mine Next to the Subsidence Crater of El Teniente Mine in
Chile. Slope Stability 2009, November, Santiago, Chile. (Also mentions: Swedge.)
9. Jaboyedoff, M., Pedrazzini, A., Loye, A., Oppikofer, T. and Pons, G. (2009). Earth flow in a
complex geological environment: the example of Pont Bourquin, Les Diablerets (Western
Switzerland). Landslide Processes: from geomorphological mapping to dynamic modelling,
Strasbourg.
10. Lilly, P. A., Thomas, S. J., Hebblewhite, B. K. and Galvin, J. M. (2003). A rock mechanics
education program for undergraduate mining engineers in Australia. ISRM 2003–
Technology roadmap for rock mechanics, South African Institute of Mining and Metallurgy,
Sept. 8 - 12, Gauteng. (Also mentions: Swedge.)
11. Lloyd, J. (2007). Evaluation of an Automated Early Warning System for Unstable Soil
Slopes. Northeast Geotechnical Graduate Research Symposium, Oct. 26, Massachussetts.
12. MacLaughlin, M., Clapp, K., O'Connell, L., Smith, L., Elfass, S., Norris, G., Watters, R. (2003).
Numerical modeling of the Columbia Mountain landslide, northwestern Montana, U.S.A.
Proceedings of the 38th Symposium on Engineering Geology and Geotechnical Engineering, 38,
119-134. March, Reno.
13. Marinos, P. and Hoek, E. (2006). The construction of the Egnatia highway through unstable
slopes in northern Greece. XI Conference on Rock Mechanics, Nov, Turin.
14. Price, J., Haines, A., Baidoo, I. and Varaud, O. (2006). Design Considerations for the Damang
Open Pit Expansion. International Symposium on Stability of Rock Slopes in Open Pit Mining
and Civil Engineering Situations , April, Cape Town. (Also mentions: Swedge.)
15. Rapiman, M. and Sepulveda, R. (2006). Slope Optimization at Escondida Norte Open Pit.
International Symposium on Stability of Rock Slopes.
16. Rickard, S., Schulz, W., Higgins, J. (2009). Potential initiation of the Carmel Knoll and Devils
Punch Bowl Landslides of Lincoln County, Oregon. Geological Society of America, 2009
annual meeting, 41, 378. October 18 - 21, Portland, Oregon.
17. Saroglou, H., Antoniou, A. A. and Pateras, S. K. (2008). Ground Improvements of Clayey Soil
Formations Using Stone Columns: A Case Study from Greece. The 12th International
Conference of International Association for Computer Methods and Advances in Geomechanics
(IACMAG), Oct. 1 - 6, Goa.
18. Short, R., Collins, B. D., Bray, J. D. and Sitar, N. (2006). Testing and Evaluation of Driven
Plate Piles in a Full Size Test Slope: A New Method for Stabilizing Shallow Landslides.
Transportation Research Board Annual Meeting, Washington DC.
19. Stefanussen, W. and Nilsen, B. (2006). Guaigui Multipurpose Project Rock Slope Stability.
International Symposium on Stability of Rock Slopes in Open Pit Mining and Civil Engineering
Situations, April, Cape Town.
20. Wulforst, J., Parkinson, S., Annandale, G., Conner, J., Anderson, K. (2004). The use of
geomorphology, geophysics, hydrogeology, geotechnical modeling, and sediment transport
modeling to determine the cause of bank erosion on the Snake River in Hells Canyon.
Geological Society of America, Rocky Mountain section, 56th Annual Meeting, 36, 4, 29. May 3
– 5, Boise, Idaho.
21. Zhu, Y., Lee, K. and Collison, G. H. (2005). A 2D Seismic Stability and Deformation Analysis. ASCE Geo-Frontiers, Jan. 24 - 26, Austin, TX.
OTHERS 1. Basnett, C. and Radhakrishnan, K., CH2M HILL (2007). Geotechnical Evaluation Technical
Memorandum. Technical Report.
2. BGC Engineering Inc. (2006). Hydrogeological Investigation and Analyses Report - Proposed
Excavation. Technical Report.
3. Eberhardt, E. (2003). Rock Slope Stability Analysis - Utilization of Advanced Numerical
Techniques. Lecture Notes. (Also mentions: Dips, RocFall, RocPlane & Swedge.)
4. Golder Associates. (2008). Ore Stockpile Pad Design Report Pinon Ridge Project, Montrose
County, Colorado. Technical Report.
5. Golder Associates. (2008). Tailings Cell Design Report Pinon Ridge Project, Montrose
County, Colorado. Technical Report.
6. O’Rourke, S. Hazard and Risk Assessment of Slope Instability at Ringstead Bay, Dorset.
Technical Report.
7. Rodríguez-Peces, M.J., García-Mayordomo, J., Azañón, J.M., Arévalo, J.M.I. and Pintor, J.J.
(2010). Constraining pre-instrumental earthquake parameters from slope stability back-
analysis: Palaeoseismic reconstruction of the Güevéjar landslide during the 1st November
1755 Lisbon and 25th December 1884 Arenas del Rey earthquakes. Article in Press.
8. Styles, T. (2006). Numerical modelling of fractured rock slopes using ELFEN . Excapades.
(In-house journal).
9. Thornburn, T. and Lee, A., jnpgroup (2007). Slope Stability Assessment, Station Yard, Lee
Railway Station, Lewisham. Technical Report.
10. Van Leuven, R. (2011). Assessing the Potential for Seepage Barrier Defects to Propagate
into Seepage Erosion Mechanisms. Master’s thesis, Utah State University.
11. Wartman, J. and Strenk, P. M. (2006). Evaluation of Analytical Procedures for Estimating
Seismically Induced Permanent Deformation in Slopes. Technical Report.
SWEDGE
JOURNALS 1. Avanzi, G. D., Marchetti, D. and Puccinelli, A. (2006). Cultural heritage and geological
hazards: the case of the Calomini hermitage in Tuscany (Italy). Landslides 3, 331 – 340.
2. Barnett, W., Guest, A., Terbrugge, P. and Walker, D. (2001). Probabilistic pit slope design in
the Limpopo metamorphic rocks at Venetia Mine. Journal of the South African Institute of
Mining and Metallurgy 101, 381 – 392.
3. Brideau, M., Pedrazzini, A., Stead, D., Froese, C., Jaboyedoff, M., van Zeyl, D. (2010).Three-
dimensional slope stability analysis of South Peak, Crowsnest Pass, Alberta, Canada.
Landslides, 8, 2, 139 - 158.
4. Brideau, M., Yan, M. and Stead, D. (2009). The role of tectonic damage and brittle rock
fracture in the development of large rock slope failures. Geomorphology 103, 30 – 49. (Also
mentions: RocPlane & Slide.)
5. Chiwaye, H.T. and Stacey, T.R. (2010). A comparison of limit equilibrium and numerical
modelling approaches to risk analysis for open pit mining. SIAMM - Journal of The South
African Institute of Mining and Metallurgy, 110, 571 – 580.
6. Dwivedi, S. K. and Adhikary, P. C. (2005). Engineering geology of Kankai Hydroelectric
tunnel alignment in east Nepal. Journal of Nepal Geological Society 31, 67 – 74. (Also
mentions: Unwedge.)
7. Grenon, M. and Hadjigeorgiou, J. (2008). A design methodology for rock slopes susceptible
to wedge failure using fracture system modelling. Engineering Geology 96, 78 – 93.
8. Hungr, O. And Amann, F. (2011). Limit equilibrium of asymmetric laterally constrained
rockslides. International Journal of Rock Mechanics and Mining Sciences, 48, 748 – 758.
9. Kentli, B. and Topal, T. (2004). Evaluation of rock excavatability and slope stability along a
segment of motorway, Pozanti, Turkey. Environmental Geology, 46, 83 – 95. (Also mentions:
Dips.)
10. Kentli, B. and Topal, T. (2004). Assessment of rock slope stability for a segment of the
Ankara-Pozanti motorway, Turkey. Engineering Geology 74, 73 – 90. (Also mentions: Dips.)
11. Peila, D., Patrucco, M., Falanesca, M. (2011). Quantification and management of rockfall risk
in opencast quarrying activities. Environmental & Engineering Geoscience, 17, 39 – 51. (Also
mentions: RocFall.)
12. Stead, D., Eberhardt, E. and Coggan, J. S. (2006). Developments in the characterization of
complex rock slope deformation and failure using numerical modelling techniques.
Engineering Geology 83, 217 – 235. (Also mentions: Dips & RocLab.)
CONFERENCES 1. Andrade, P. and Saraiva, A. (2006). Stability analysis of road slopes in central Portugal.
10th International Congress of the International Association for Engineering Geology, Sept.
6 – 10, Nottingham, UK. (Also mentions: RocPlane.)
2. Brideau, M., Pedrazzini, A., Stead, D., Jaboyedoff, M., Froese, C. (2009). Preliminary three-
dimensional numerical analyses of South Peak area, Turtle Mountain, Alberta. 62nd
Canadian Geotechnical Conference, Sept. 20 – 23, Halifax.
3. Careddu, N., Siotto, G., Tuveri A. (2010). Evolution of a marble quarry: from open cast to
underground exploitation. Global Stone Congress, March 2 – 5, Alicante, Spain. (Also
mentions: Phase2 and Unwedge.)
4. Chatzigogos N., Makedon T., Tsotsos S. (2007). The mechanical behaviour of gneisseous
rocks and selection of strength parameters for stability analysis of excavated
slopes. Proceedings 1st Sri Lankan Geotechnical Society International Conference on Soil and
Rock Engineering, Aug 7 – 11, Colombo. (Also mentions: RocPlane and Dips.)
5. Grenon M., Mellies G., Hadjigeorgiou J. (2008). Structural analysis along a highway rock
exposure: the Fleurimont road cut. 4th Canadian Conference on Geohazards, May 20 – 24,
Québec. (Also mentions: Dips.)
6. Hormazabal, E., Rovira F., Walker, M., Carranza-Torres, C. (2009). Analysis and Design of
Slopes for Rajo Sur, an Open Pit Mine Next to the Subsidence Crater of El Teniente Mine in
Chile. Slope Stability 2009, November, Santiago, Chile. (Also mentions: Swedge.)
7. Lilly, P. A. and Oageng K. (2004). The effect of simulation method and distribution shape on
the selection of iteration frequency in rock engineering risk analysis. Proceedings of the 13th
International Symposium on Mine Planning and Equipment Selection, Sept. 1 – 3, Wroclaw,
Poland.
8. Lilly, P. A., Thomas, S. J., Hebblewhite, B. K. and Galvin, J. M. (2003). A rock mechanics
education program for undergraduate mining engineers in Australia. ISRM 2003–
Technology roadmap for rock mechanics, South African Institute of Mining and Metallurgy,
Sept. 8 - 12, Gauteng. (Also mentions: Slide.)
9. Mahboubi, A., Aminpour, A. and Noorzad, A. (2008). Conventional and Advanced Numerical
Methods of Rock Slope Stability Analysis, A Comparison Study, Gotvand Dam Right
Abutment (Iran) Case Study. The 12th International Conference of International Association
for Computer Methods and Advances in Geomechanics (IACMAG), Oct. 1 - 6, Goa. (Also
mentions: Dips & RocFall.)
10. Nasrallah, J., Monte, J., Kemeny J. (2004). Rock mass characterization for slope/catch bench
design using 3D laser and digital imaging. ARMA 6th Rock Mechanics Symposium, June 5 – 9,
Houston. (Also mentions: RocPlane.)
11. Ocepek, D. (2007). Observational method for designing high cutting slopes in urban areas.
Proceedings of the 14th European Conference on soil Mechanics and Geotechnical Engineering,
Sept. 24 - 27, Madrid. (Also mentions: Dips.)
12. Price, J., Haines, A., Baidoo, I. and Varaud, O. (2006). Design Considerations for the Damang
Open Pit Expansion. International Symposium on Stability of Rock Slopes in Open Pit Mining
and Civil Engineering Situations , April, Cape Town. (Also mentions: Slide.)
13. Stead, D., Eberhardt, E., Coggan, J. and Benko, B. (2001). Advanced numerical techniques in
rock slope stability analysis - applications and limitations. Landslides - Causes, Impacts and
Countermeasures, June 17 - 21, Davos. (Also mentions: Dips & RocFall.)
14. Steiner, W., Diederichs, M. S. and Kaiser, P. K. (2001). Probabilistic Evaluation of the
Stability of a Bridge Foundation on a Rock Cliff. Proceedings of the International Symposium:
Landslides - Causes, Impacts and Countermeasures, Davos.
15. Wang, E., Das, P., Shah, A., Chang, C. (2006). Rock mass characterization for design of the
No. 7 Subway Line Extension project in New York City. Proceedings of the North American
Tunneling 2006 Conference, June 10 – 15, Chicago.
OTHERS 1. Eberhardt, E. (2003). Rock Slope Stability Analysis - Utilization of Advanced Numerical
Techniques. Lecture Notes. (Also mentions: Dips, RocFall, RocPlane & Slide.)
2. Mulhern, M. P. (2007). SR 97 North of Blewett Pass Unstable Slope. Technical Report.
3. Norrish, N. I., Findley, D. P., Byers, T. J. and Lowell, S. M., Golder Associates. Ruby Creek Rock
Slope Stabilization. Technical Report.
UNWEDGE
JOURNALS 1. Barla, G., Fava, A. and Peri, G. (2008). Design and Construction of the Venaus Powerhouse
Caverns in Calcschists. Geomechanik and Tunnelbau 1, 399 – 406. (Also mentions: Examine3D
& Phase2.)
2. Dwivedi, S. K. and Adhikary, P. C. (2005). Engineering geology of Kankai Hydroelectric
tunnel alignment in east Nepal. Journal of Nepal Geological Society 31, 67 – 74. (Also
mentions: Swedge.)
3. Fellner, D. and Hobson, D. (2008). HPP Glendoe - Rock Mechanical Aspects for Large Span
Underground Powerhouse. Geomechanik and Tunnelbau 1, 374 – 382. (Also mentions:
Phase2.)
4. Hadjigeorgiou, J., Esmaieli, K. and Grenon, M. (2009). Stability analysis of vertical
excavations in hard rock by integrating a fracture system into a PFC model. Tunnelling and
Underground Space Technology 24, 296 – 308.
5. Hagedorn, H. (2001). Rock engineering considerations in the planning and construction of
the Sedrun shaft head. Geotechnical Engineering – Meeting Society’s Needs, 1, 327-332.
6. Hutchinson, D. J., Phillips, C. and Cascante, G. (2002). Risk considerations for crown pillar
stability assessment for mine closure planning. Geotechnical and Geological Engineering 20,
41 - 63. (Also mentions: CPillar.)
7. Kalenchuk, K. S., McKinnon, S. and Diederichs, M. S. (2008). Block geometry and rock mass
characterization for prediction of dilution potential into sub-level cave mine voids.
International Journal of Rock Mechanics and Mining Science 45, 929 – 940. (Also mentions:
Dips.)
8. Liu, J., Li., Z. and Zhang, Z. (2004). Stability analysis of block in the surrounding rock mass of
a large underground excavation. Tunnelling and Underground Space Technology 19, 35 – 44.
9. Oreste, P. P. and Cravero, M. (2008). An analysis of the action of dowels on the stabilization
of rock blocks on underground excavation walls. Rock Mechanics and Rock Engineering 41,
835 – 868.
10. Pastarus, J.R. (1995). Preliminary Analysis of the Cavern Stability in the Maardu Granite
Deposit. Proceedings of the Estonian Academy of Sciences, Engineering, 1, 20-31.
11. Peila, D., Guardini, C. and Pelizza, S. (2008). Geomechanical design of a room and rib pillar
granite mine. Journal of University of Science and Technology Beijing 15, 97 – 103. (Also
mentions: Dips & Phase2.)
12. Wang, M., Yang, L., Liu, H. and Bai, S. (2003). Control effect of rock mass structure on
stability of top slab for large underground cavern. Rock and Soil Mechanics, 2003-03.
13. Xie, Y., Liu, J., Li Z. and Zhang, Z. (2006). Stability Analysis of Block in Surrounding Rock
Mass of Large Underground Excavation. Chinese Journal of Rock Mechanics and Engineering,
25, 306 – 311.
CONFERENCES 1. Careddu, N., Siotto, G., Tuveri A. (2010). Evolution of a marble quarry: from open cast to
underground exploitation. Global Stone Congress, March 2 – 5, Alicante, Spain. (Also
mentions: Phase2 and Swedge.)
2. Chung, S., Jeon, Y., Sunwoo, C. and Jung, Y. (2005). Evaluation of the stability and support
design for the underground caverns in an abandoned gold mine. Underground Space Use:
Analysis of the Past and Lessons for the Future, May 7 – 12, Istanbul.
3. Decker, J. B. and Dove, J. E. (2008). Laser Scanning Techniques in Devil’s Slide Tunnels.
Laser and Photogrammetric Methods for Rock Tunnel Characterization, June 28 - 29 , San
Francisco.
4. Dunn, M. J., Earl, P. J. and Watson, J. (2008). Support Design Using Probabilistic Keyblock
Methods. 6th International Symposium on Ground Support in ming and civil engineering
construction, March 30 - April 4, Cape Town.
5. Funkhouser, M.R. and McNeilly, M.F. (2004). Ground support design and analysis:
Exchange Place Station Improvements. Proceedings of the North American Tunneling
Conference, April 17 – 22, Atlanta.
6. Hutchinson, D.J. and Grabinsky, M. (1992). Back analysis of stope stability at Ansil mine
using instrumentation data and numerical modeling. Proceedings of the International
Symposium on Rock Support in Mining and Underground Construction, June 16 – 19, Sudbury.
7. Kaiser, P. K. and Kim, B. (2008). Rock Mechanics Advances for Underground Construction
in Civil Engineering and Mining. Rock Mechanics Aspects of Underground Construction and
Mining, Oct. 21 - 23, Korea. (Also mentions: RocLab.)
8. Kazemi, A. and Ahmadi, M. A. (2003). Design of lining system for a pressure tunnel on the
base of interaction between rock and lining. ISRM 2003–Technology roadmap for rock
mechanics, South African Institute of Mining and Metallurgy, Sept. 8 - 12, Gauteng.
9. Mandal, A., Chakravarthy, C.P., Nanda, A. and Rath, R. (2010). Analysis and Design of Large
Storage Caverns. ISRM International Symposium - 6th Asian Rock Mechanics Symposium, Oct.
23 – 27, New Delhi, India.
10. Peila, D., Pelizza, S. and Guardini C. (2007). Underground exploitation of a granite mine by
large voids: stability aspects. Underground Space – the 4th Dimension of Metropolises:
Proceedings of the World Tunnel Congress 2007 and 33rd ITA/AITES Annual General
Assembly, May, Prague.
11. Stadelmann, R. and Wannenmacher, H. (2010). Construction Of Shallow Caverns In Blocky
Ground. ISRM International Symposium - 6th Asian Rock Mechanics Symposium, Oct. 23 – 27,
New Delhi, India.
OTHERS 1. Martin, D. (2005). Preliminary assessment of potential underground stability (wedge and
spalling) at Forsmark, Simpevarp and Laxemar sites. Technical Report. (Also mentions:
Phase2.)
2. Regmi, N., Adhikary, P., Tamrakar, J. and Dhakal, R. (2008). Stability and stress analysis of
headrace tunnel, Upper Seti Storage Hydroelectric Project, Western Nepal. Bulletin of the
Department of Geology, Tribhuvan University, Kathmandu, Nepal, 10, 45 – 54.
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