References
Ai C, Zhang J, Li YW, Zeng J, Yang XL, Wang JG (2016) Estimation criteria for rock brittleness based on energy analysis during the rupturing process. Rock Mech Rock Eng 49(12):4681–4698
Bernabé Y, Revil A (1995) Pore-scale heterogeneity, energy dissipation and the transport properties of rocks. Geophys Res Lett 22(12):1529–1532
Bhattacharya K, Ortiz M, Ravichandran G (1998) Energy-based model of compressive splitting in heterogeneous brittle solids. J Mech Phys Solids 46(10):2171–2181
Chen FJ, Li HX, Zhu ZQ (2013) Energy dissipation analysis on unloading confining pressure failure process of rock material. Appl Mech Mater 256–259:398–401
Cornetti P, Pugno N, Carpinteri A, Taylor D (2006) Finite fracture mechanics: a coupled stress and energy failure criterion. Eng Fract Mech 73(14):2021–2033
Deng Y, Chen M, Jin Y, Zou DW (2016) Theoretical analysis and experimental research on the energy dissipation of rock crushing based on fractal theory. J Nat Gas Sci Eng 33:231–239
Ferro G (2006) On dissipated energy density in compression for concrete. Eng Fract Mech 73(11):1510–1530
Franklin JA (1985) Suggested method for determining point load strength. Int J Rock Mech Min Sci Geomech Abstr 22(2):51–60
Gong FQ, Zhao GF (2014) Dynamic indirect tensile strength of sandstone under different loading rates. Rock Mech Rock Eng 47(6):2271–2278
Hua AZ, You MQ (2001) Rock failure due to energy release during unloading and application to underground rock burst control. Tunnel Underg Space Technol 16(3):241–246
Huang D, Li Y (2014) Conversion of strain energy in triaxial unloading tests on marble. Int J Rock Mech Min 66(1):160–168
Ju Y, Wang HJ, Yang YM, Hu QA, Peng RD (2010) Numerical simulation of mechanisms of deformation, failure and energy dissipation in porous rock media subjected to wave stresses. Sci China Tech Sci 53(4):1098–1113
Kuruppu MD, Obara Y, Ayatollahi MR, Chong KP, Funatsu T (2014) ISRM-suggested method for determining the mode I static fracture toughness using semi-circular bend specimen. Rock Mech Rock Eng 47(1):267–274
Li QM (2001) Strain energy density failure criterion. Int J Solids Struct 38(38):6997–7013
Li YR, Huang D, Li XA (2014) Strain rate dependency of coarse crystal marble under uniaxial compression: strength, deformation and strain energy. Rock Mech Rock Eng 47(4):1153–1164
Liu GL (2009) A novel limiting strain energy strength theory. T Nonferr Metal Soc 19(6):1651–1662
Liu XS, Ning JG, Tan YL, Gu QH (2016) Damage constitutive model based on energy dissipation for intact rock subjected to cyclic loading. Int J Rock Mech Min 85(2016):27–32
Meng QB, Zhang MW, Ha LJ, Pu H, Nie TY (2016) Effects of acoustic emission and energy evolution of rock specimens under the uniaxial cyclic loading and unloading compression. Rock Mech Rock Eng 49(10):1–14
Munoz H, Taheri A, Chanda EK (2016a) Fracture energy-based brittleness index development and brittleness quantification by pre-peak strength parameters in rock uniaxial compression. Rock Mech Rock Eng 49(12):4587–4606
Munoz H, Taheri A, Chanda EK (2016b) Rock drilling performance evaluation by an energy dissipation based rock brittleness index. Rock Mech Rock Eng 49(8):3343–3355
Munoz H, Taheri A, Chanda E (2017) Rock cutting performance assessment using strain energy characteristics of rocks. Trans Inst Min Metall 126(4)
Peng RD, Ju Y, Wang JG, Xie HP, Gao F, Mao LT (2015) Energy dissipation and release during coal failure under conventional triaxial compression. Rock Mech Rock Eng 48(2):509–526
Sujatha V, Kishen JMC (2003) Energy release rate due to friction at bimaterial interface in dams. J Eng Mech 129(7):793–800
Thomas A, Filippov LO (1999) Fractures, fractals and breakage energy of mineral particles. Int J Miner Process 57(4):285–301
Wasantha PL, Ranjith PG, Shao SS (2014) Energy monitoring and analysis during deformation of bedded-sandstone: use of acoustic emission. Ultrasonics 54(1):217
Wu JY, Li J, Rui F (2006) An energy release rate-based plastic-damage model for concrete. Int J Solids Struct 43(3–4):583–612
Xie HP, Peng RD, Ju Y (2004) Energy dissipation of rock deformation and fracture. Chin J Rock Mech Eng 23(21):3 565–563 570
Xie HP, Peng RD, Ju Y, Zhou HW (2005) On energy analysis of rock failure. Chin J Rock Mech Eng 24(15):2 603-2 608
Xie HP, Li LY, Peng RD, Ju Y (2009) Energy analysis and criteria for structural failure of rocks. J Rock Mech Geotech Eng 1(1):11–20
Xie HP, Li LY, Ju Y, Peng RD, Yang YM (2011) Energy analysis for damage and catastrophic failure of rocks. Sci China Tech Sci 54(Suppl 1):199–209
Xu SC, Jiang Q, Jin CY (2013) Study on energy evolution process of hard brittle rock under uniaxial compression. Appl Mech Mater 353–356:511–514
Yang YM, Ju Y, Li FX, Gao F, Sun HF (2016) The fractal characteristics and energy mechanism of crack propagation in tight reservoir sandstone subjected to triaxial stresses. J Nat Gas Sci Eng 32:415–422
You MQ, Hua AZ (2002) Energy analysis of failure process of rock specimens. Chin J Rock Mech Eng 21(6):778–781
Zhang ZZ, Gao F (2015) Experimental investigation on the energy evolution of dry and water-saturated red sandstones. Int J Min Sci Technol 25(3):383–388
Zhang MW, Meng QB, Liu SD (2017) Energy evolution characteristics and distribution laws of rock materials under triaxial cyclic loading and unloading compression. Adv Mater Sci Eng 2017(8):1–16
Zhou XP, Yang HQ, Zhang YX (2009) Rate dependent critical strain energy density factor of huanglong limestone. Theor Appl Fract Mech 51(1):57–61
Acknowledgements
This work was supported by the National Natural Science Foundation of China (Grant No. 41472269).
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Gong, Fq., Luo, S. & Yan, Jy. Energy Storage and Dissipation Evolution Process and Characteristics of Marble in Three Tension-Type Failure Tests. Rock Mech Rock Eng 51, 3613–3624 (2018). https://doi.org/10.1007/s00603-018-1564-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00603-018-1564-4