Creep failure mode and criterion of Xiangjiaba sandstone

Wei Wang; Liang-quan Li; Wei-ya Xu; Qing-xiang Meng; Jun Lü

doi:10.1007/s11771-012-1445-z

Journal of Central South University ›› 2012, Vol. 19 ›› Issue (12) : 3572 -3581. DOI: 10.1007/s11771-012-1445-z

Article

Creep failure mode and criterion of Xiangjiaba sandstone

Wei Wang ¹^,²^,^a
, Liang-quan Li ³
, Wei-ya Xu ¹^,²
, Qing-xiang Meng ¹^,²
, Jun Lü ¹^,²

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Abstract

Based on the results of conventional triaxial compression tests and triaxial compression creep tests on Xiangjiaba sandstone, the failure modes in short-term tests and creep tests, fractography of sandstone after creep failure, short-term and creep failure criterion are analyzed. In the short-term tests and creep tests, the sandstone samples fail in a mix mode consisting of shear failure in a single main plane and tensile failure. Confining pressure can restrict brittle failure and enhance the ductility of sandstone. In the creep tests, brittle fracture is reduced and plastic deformation can fully be developed compared to the condition of short-term tests. And the shear fracture surfaces are flat and they are covered by small particles as a result of friction. When confining pressure increases, particle size decreases while the degree of friction on shear plane increases. On the tensile failure plane, the tensile trace and direction of tearing could be clearly observed. There are obvious tearing steps on the tensile failure plane and tearing laminated structure on the front edge of tearing fracture. The same criterion can be used for the short-term and creep behavior, and the fitting effect using the MOGI criterion is better than the DRUCKER-PRAGER criterion. The cohesion and friction angle calculated by the MOGI criterion are in good accordance with those calculated by the MOHR-COULOMB criterion.

Keywords

rock rheological mechanics / sandstone / failure mode / fractography / scanning electron microscope / failure criterion

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Wei Wang, Liang-quan Li, Wei-ya Xu, Qing-xiang Meng, Jun Lü. Creep failure mode and criterion of Xiangjiaba sandstone. Journal of Central South University, 2012, 19(12): 3572-3581 DOI:10.1007/s11771-012-1445-z

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References

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[1]	ZengY.-w., ZhaoZ.-y., ZhuY.-wen.. Bifurcation analysis on failure forms of rock material [J]. Chinese Journal of Rock Mechanics and Engineering, 2002, 21(7): 948-852

[2]	MaoH.-j., YangC.-he.. Study on effects of discontinuities on mechanical characters of slate [J]. Chinese Journal of Rock Mechanics and Engineering, 2005, 24(20): 3651-3656

[3]	LiH.-z., XiaC.-c., WangX.-d., ZhouJ.-f., ZhangC.-sheng.. Experimental study on deformation and strength properties of jointed marble specimens [J]. Chinese Journal of Rock Mechanics and Engineering, 2008, 27(10): 2118-2123

[4]	FengX.-t., PanP.-Z., ZhouHui.. Simulation of the rock microfracturing process under uniaxial compression using an elasto-plastic cellular automaton [J]. International Journal of Rock Mechanics and Mining Sciences, 2006, 43(7): 1091-1108

[5]	YuQ.-l., YangT.-h., LiuH.-l., TangC.-an.. Numerical simulation on granite failure mechanism at meso-level under moderate or low confining pressure [J]. Journal of Northeastern University, 2009, 30(7): 1026-1029

[6]	ZhuW.-c., TangC.-n., HuangZ.-p., FengM.-zhang.. Numerical simulation on splitting failure mode of rock under static and dynamic loadings [J]. Chinese Journal of Rock Mechanics and Engineering, 2005, 24(1): 1-7

[7]	XieH.-p., SandersonJ., PeacockD.C.P.. A fractal model and energy dissipation for an echelon fractures [J]. Engineering Fracture Mechanics, 1994, 48(5): 655-662

[8]	ThomasB., RaduS.. A quantitative comparison of six rock failure criteria [J]. International Journal of Rock Mechanics and Mining Sciences, 2008, 45(7): 1176-1186

[9]	YuM.-h., ZanY.-w., ZhaoJian., YoshimineM.. A Unified Strength criterion for rock material [J]. International Journal of Rock Mechanics and Mining Sciences, 2002, 39(8): 975-989

[10]	SaroglouH., TsiambaosG.. A modified Hoek-Brown failure criterion for anisotropic intact rock [J]. International Journal of Rock Mechanics and Mining Sciences, 2008, 45(2): 223-234

[11]	MogiK.. Fracture and flow of rocks under high triaxial compression [J]. J Geophys Res, 1971, 76(5): 1255-69

[12]	Al-AjmiA. M., ZimmermanR. W.. Relation between the Mogi and Coulomb failure criteria [J]. International Journal of Rock Mechanics and Mining Sciences, 2005, 42(3): 431-439

[13]	WangW., XuW.-y., LiL.-q., JiangY.-zhou.. Experimental study on the time-dependent behavior of Xiangjiaba sandstone [C]. Proceeding of the 2nd international conference on long term behavior of dams, 2009GrazGraz University of Technology569-574

[14]	ZuoJ.-p., XieH.-p., ZhouH.-w., FangY., FanXiong.. Fractography of sandstone failure under temperature-tensile stress coupling effects [J]. Chinese Journal of Rock Mechanics and Engineering, 2007, 26(12): 2444-2457

[15]	ColnenaresL. B., ZobackM. D.. A statistical evaluation of intact rock failure criteria constrained by polyaxial test data for five different rocks [J]. International Journal of Rock Mechanics & Mining Sciences, 2002, 39(6): 695-729

[16]	Al-AjmiA. M., ZimmermanR. W.. Stability analysis of vertical boreholes using the Mogi-Coulomb failure criterion [J]. International Journal of Rock Mechanics & Mining Sciences, 2006, 43(8): 1200-1211