Основания, фундаменты и механика грунтов

Методом конечных элементов исследовано влияние гидравлического давления и тектонического напряжения на трещинообразование в массиве скального грунта, содержащего начальные дефекты.Модельные расчеты проводились для квадратной области, ослабленной двойным дефектом, под действием вертикальной и горизонтальной нагрузок (моделирование тектонических напряжений), и гидравлического давления в различных сочетаниях.

Raaen A.M., Skomedal E., Kjorholt H., Markestad P., Okland D. Stress determination from hydraulic fracturing

tests: the system stiffness approach, Int. J. Rock Mech. Min. Sci., 2001.- № 38. - Pp. 529-541.

Murdoch L.C. and Slack W.W. Forms of hydraulic fractures in shallow fine-grained formations, Geotech.Geoenviron. Eng., 2002. - № 128. - Pp. 479-487.

Hainey B.W., Keck R.G., Smith M.B., Lynch K.W., Barth J.W. On-site fracturing disposal of oilfield-waste solids in Wilmington field, SPE Prod. Facil., 1999. - № 14. - Pp.83-87.

Nelson E.J., Meyer J.J., Hillis R.R., Mildren S.D. Transverse drilling induced tensile fractures in the West Tuna area, Gippsland Basin, Australia: implications for the in-situ stress regime, Int. J. Rock Mech. Min. Sci. -2005. -№ 42. Pp. 361-371(2005).

Bobet A., Einstein H.H. Fracture coalescence in rock-type materials under uniaxial and biaxial compression, Int.

J. Rock Mech. Min. Sci., 1998. - № 35.- Pp. 863-888.

Yang S.Q., Huang Y.H., Tian W.L., Zhu J.B. An experimental investigation on strength, deformation and crack evolution behavior of sandstone containing two oval flaws under uniaxial compression, Eng. Geol., 2007. - № 217.-Pp. 35-48.

Morgan S.P., Einstein H.H. Cracking Processes Affected by Bedding Planes in Opalinus Shale with Flaw Pairs, Eng. Fract. Mech., (2017), doi:http://dx.doi.org/10.1016/j.engfracmech.2017.03.003.

Goncalves da Silva B., Einstein H.H. Finite Element study of fracture initiation in flaws subject to internal fluid pressure and vertical stress, Int. J. Solids Struct., 2014. -№ 51. - Pp. 4122-4136.

Bobet A. Fracture Coalescence in Rock Materials: Experimental Observations and Numerical Predictions (Sc.D.

thesis), Massachusetts Institute of Technology. -1997.

Yao Y. Linear elastic and cohesive fracture analysis to model hydraulic fracture in brittle and ductile rocks, Rock

Mech. Rock Eng., 2012. - № 45. - Pp. 375-387.

Rannou J., Limodin N., Rethore J., Gravouil A., Ludwig W., Baietto-Dubourg M.-C., Buffiere J.-Y., Combescure A.,

Hild F., Roux S. Three dimensional experimental and numerical multiscale analysis of a fatigue crack, Comput.Methods Appl. M, 2010. - № 199. -Pp. 1307-1325.

Wang Z., Yu T.T., Bui T.Q., Tanaka S., Zhang C.Z., Hirose S., Curiel-Sosa J.L. 3-D local mesh refinement XFEM with variable-node hexahedron elements for extraction of stress intensity factors of straight and curved planar cracks, Comput. Methods Appl. Mech. Engrg., 2017. - № 313. Pp. - 375-405.

Tang C.A. Numerical simulation of progressive rock failure and associated seismicity, Int. J. Rock Mech. Min., 1997. -№ 34. -Pp. 249-261.

Potyondy D.O., Cundall P.A. A bonded-particle model for rock, Int. J. Rock Mech. Min. Sci., 2004. - № 41. - Pp.1329-1364.

Huang Y.H., Yang S.Q., Zhao J. Three-Dimensional Numerical Simulation on Triaxial Failure Mechanical

Behavior of Rock-Like Specimen Containing Two Unparallel Fissures, Rock Mech. Rock Eng., 2016. -№ 49. Pp. 4711-4729.

Pearce C.J., Thavalingam A., Liao Z., Bicanic N. Computational aspects of the discontinuous deformation

analysis framework for modelling concrete fracture, Eng. Fract. Mech., 2000. -№ 65. -Pp. 283-298.

Ma G.W., An X.M., Zhang H.H., Li L.X. Modeling complex crack problems using the numerical manifold method,

Int. J. Fract., 2009. - № 156. - Pp. 21-35.

Goncalves da Silva B., Einstein H.H. Modeling of crack initiation, propagation and coalescence in rocks, Int. J.

Fract, -2013. -№ 182. - Pp. 167-186.

Wangen M. A. 2D volume conservative numerical model of hydraulic fracturing, Comput. Strcut., 2017. - № 182.

-Pp. 448-458.

Yarushina V.M., Bercovici D., Oristaglio M.L. Rock deformation models and fluid leak-off in hydraulic fracturing,

Geophys. J. Int., 2013. - № 194. -Pp. 1514-1526.

Wong N.Y. Crack Coalescence in Molded Gypsum and Carrara Marble, (Ph.D.thesis) Massachusetts Institute of

Technology. - 2008.

Li H.Q., Wong L.N.Y. Influence of flaw inclination angle and loading condition on crack initiation and propagation,

Int. J. Solids Struct., 2012. -№ 49. - Pp. 2482-2499.

Goncalves da Silva B. Modeling of Crack Initiation, Propagation and Coalescence in Rocks (S.M. thesis).

Massachusetts Institute of Technology. -2009.