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New open-source ANSYS-SolidWorks-FLAC3D geometry conversion programs

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Języki publikacji
EN
Abstrakty
EN
Numerical calculations are used increasingly often to obtain a stress-strain state in many engineering problems. A popular program for this type of calculation which makes use of the finite difference method (a continuous method) is Itasca's FLAC3D. However, an important limitation of FLAC3D is the difficulty of geometry creation. This paper presents new open-source programs allowing the preparation of numerical models in a third-party software (ANSYS, SolidWorks) and their conversion to internal FLAC3D geometry files. The converters have been written in BASH-scripting language and published under the terms of the GNU General Public License, which allows the free distribution and/or modification of the software with some limitations.
Rocznik
Strony
124--132
Opis fizyczny
Bibliogr. 29 poz.
Twórcy
autor
  • Główny Instytut Górnictwa (Central Mining Institute), Plac Gwarków 1, 40-166 Katowice, Poland
Bibliografia
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  • 4. Chugh, A. K. (2005). A counterfort versus a cantilever retaining wall - a seismic equivalence. International Journal for Numerical and Analytical Methods in Geomechanics, 29, 897-917.
  • 5. F2F. (2015). Free software to create 3D mesh for FLAC3D. Retrieved 2 September 2015 from: http://www.roozbehgm.com/codes/f2f/f2f.html/.
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  • 13. He, M. C., Feng, J. L., & Sun, X. M. (2008). Stability evaluation and optimal excavated design of rock slope at Antaibao open pit coal mine China. International Journal of Rock Mechanics and Mining Sciences, 45(3), 289-302. http://dx.doi.org/10.1016/j.ijrmms.2007.05.007.
  • 14. Hokmabadi, A. S., Fatahi, B., & Samali, B. (2014). Assessment of soil-pile-structure interaction influencing seismic response of mid-rise buildings sitting on floating pile foundations. Computers and Geotechnics, 55, 172e186. http://dx.doi.org/10.1016/j.compgeo.2013.08.011.
  • 15. Javeri, V. (2008). Three dimensional analysis of combined gas, heat and nuclide transport in a repository in clay rock including coupled thermo-hydro-geomechanical processes. Physics and Chemistry of the Earth, 33(Suppl. 1), S252-S259. http://dx.doi.org/10.1016/j.pce.2008.10.038.
  • 16. Jiang, Y., Wang, H., Xue, S., Zhao, Y., Zhu, J., & Pang, X. (2012). Assessment and mitigation of coal bump risk during extraction of an island longwall panel. International Journal of Coal Geology, 95, 20-33.
  • 17. Kubrix Geo. (2015). KUBRIX Geo - Itasca consulting group. Retrieved 15 Juni 2015 from: http://www.itascacg.com/software/kubrix-geo/.
  • 18. Nielsen, S. H. H., Cunningham, F., Hay, R., Partington, G., & Stokes, M. (2015). 3D prospectivity modelling of orogenic gold in the Marymia Inlier, Western Australia. Ore Geology Reviews, 71, 578-591. http://dx.doi.org/10.1016/j.oregeorev.2015.02.001.
  • 19. Oraee, K., Oraee, B., & Bangian, A. (2010). Design optimization of longwall chain pillars. In Conf. Proc. of 29th International Conference on Ground Control in Mining, July 27-29, 2010, Morgantown (WV), USA.
  • 20. Payne, C. E., Cunningham, F., Peters, K. J., Nielsen, S., Puccioni, E., Wildman, C., et al. (2015). From 2D to 3D: prospectivity modelling in the Taupo Volcanic Zone, New Zealand. Ore Geology Reviews, 71, 558-577. http://dx.doi.org/10.1016/j.oregeorev.2014.11.013.
  • 21. Perl. (2015). The perl programming language. Retrieved 10 September 2015 from: https://www.perl.org/.
  • 22. Prusek, S., Rotkegel, M., Bock, S., & Szymała, J. (2011). Evaluation of technical state of mining shafts lining. Schriftenreihe des Institutes für Geodäsie and der Technischen Universität Bergakademie Freiberg, 1, 201-209.
  • 23. Ross, T., Yu, B., & Nyikos, C. (2005). Analytical investigation of shaft damages at west elk mine. In Conf. Proc. of 25th International Conference on Ground Control in Mining, August 1-3, 2006, Morgantown (WV), USA.
  • 24. Rutqvist, J. (2011). Status of the TOUGH-FLAC simulator and recent applications related to coupled fluid flow and crustal deformations. Computers & Geosciences, 37(6), 739-750. http://dx.doi.org/10.1016/j.cageo.2010.08.006.
  • 25. Safari, R., & Ghassemi, A. (2015). 3D thermo-poroelastic analysis of fracture network deformation and induced microseismicity in enhanced geothermal systems. Geothermics, 58, 1-14. http://dx.doi.org/10.1016/j.geothermics.2015.06.010.
  • 26. Shahriar, K., Amoushahi, S., & Arabzadeh, M. (2009). Prediction of surface subsidence due to inclined very shallow coal seam mining using FDM. In N. Aziz (Ed.), Coal 2009: Coal Operators' Conference (pp. 130-139). University of Wollongong & the Australasian Institute of Mining and Metallurgy.
  • 27. SolidWorks. (2015). 3D CAD design software SOLIDWORKS. Retrieved 5 August 2015 from: http://www.solidworks.com/.
  • 28. Xie, G. X., Chang, J. C., & Yang, K. (2009). Investigations into stress shell characteristics of surrounding rock in fully mechanized top-coal caving face. International Journal of Rock Mechanics & Mining Sciences, 46, 172-181.
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Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e2c150ba-ce11-4e1d-a638-1bf179acb891
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