Abstract
Water has substantial effects on the tensile failure behavior of rock engineering materials in excavations and underground openings. However, our understanding of the tensile failure process of wet rock and its water-weakening mechanism is limited. In this sense, a series of uniaxial tension tests, coupled with acoustic emission (AE) signal monitoring, were carried out on dry, natural, and saturated marble rock. Importantly, the dominant frequencies of AE waveforms recorded during the tension loading were analyzed by a newly introduced quantitative statistical method. The test results show that the increasing water content of marble rock leads to significant strength reductions while having no relation with the twin-peak feature of dominant frequency bands of AE waveforms. The statistical analysis suggests that the dominant micro-tensile failures always appear before micro-shear failures and increase slightly with an increase in water content. The weak pore water pressure causes the initial release moments of micro-tensile failures for natural and saturated rocks to be advanced. With increasing water contents, more micro-tensile failures carrying less energy occur, while the amount and energy of micro-shear failure both reduce significantly. The mechanism involved in the drastic tensile strength reduction is likely to be friction weakening because of the water films, which is manifested by a significant loss in the amount and energy of micro-shear failures. This work provides a reasonable explanation for the tensile strength reduction of water-bearing rock by connecting the rock micro-failure and the dominant frequency of AE waveform signals released.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data availability
All data or models that support the findings of this study are available from the corresponding author upon reasonable request.
References
Aggelis D, Kordatos E, Matikas T (2011) Acoustic emission for fatigue damage characterization in metal plates. Mech Res Commun 38(2):106–110
Aker E, Kühn D, Vavryčuk V, Soldal M, Oye V (2014) Experimental investigation of acoustic emissions and their moment tensors in rock during failure. Int J Rock Mech Min Sci 70:286–295
Calabrese L, Campanella G, Proverbio E (2013) Identification of corrosion mechanisms by univariate and multivariate statistical analysis during long term acoustic emission monitoring on a pre-stressed concrete beam. Corros Sci 73(aug.):161–171
Chugh YP, Hardy HR, Stefanko R (1968) Investigation of the frequency spectra of microseismic activity in rock under tension, in Proceedings The 10th US Symposium on Rock Mechanics (USRMS)OnePetro
Deng J, Li L, Chen F, Yu J, Liu J (2018) Twin-peak frequencies of acoustic emission due to the fracture of marble and their possible mechanism. Advanced Engineering Sciences 50(5):12–17
Eberhardt E, Stead D, Stimpson B, Read R (1998) Identifying crack initiation and propagation thresholds in brittle rock. Can Geotech J 35(2):222–233
Goodman R (1989) Introduction to rock mechanics, 2nd edn. Wiley, New York
Gunsallus K, Kulhawy F (1984) A comparative evaluation of rock strength measures. Int J Rock Mech Min Sci Geomech Abstr 21(5):233–248
Hashiba K, Fukui K (2015) Effect of water on the deformation and failure of rock in uniaxial tension. Rock Mech Rock Eng 48(5):1751–1761
Hawkes I, Mellor M, Gariepy S (1973) Deformation of rocks under uniaxial tension. Proc Int J Rock Mech Min Sci Geomech Abstr 10:493–507
He M, Miao J, Feng J (2010) Rock burst process of limestone and its acoustic emission characteristics under true-triaxial unloading conditions. Int J Rock Mech Min Sci 47(2):286–298
Hobbs D (1967) Rock tensile strength and its relationship to a number of alternative measures of rock strength. Int J Rock Mech Min Sci Geomech Abstr 4(1):115–127
Kim E, Stine M, Oliveira D, Changani H (2017) Correlations between the physical and mechanical properties of sandstones with changes of water content and loading rates. Int J Rock Mech Min Sci 100:255–262
Lajtai E (1980) Tensile strength and its anisotropy measured by point and line-loading of sandstone. Eng Geol 15(3–4):163–171
Li L (2017) Dominant frequencies and their mechanical mechanism of acoustic emissions in rock failures. Sichuan University, Chengdu
Li L, Deng J, Zheng L, Liu J (2017) Dominant frequency characteristics of acoustic emissions in white marble during direct tensile tests. Rock Mech Rock Eng 50(5):1337–1346
Li H, Shen R, Wang E, Li D, Li T, Chen T, Hou Z (2020) Effect of water on the time-frequency characteristics of electromagnetic radiation during sandstone deformation and fracturing. Eng Geol 265:105451
Liao Z, Zhu J, Tang C (2019) Numerical investigation of rock tensile strength determined by direct tension, Brazilian and three-point bending tests. Int J Rock Mech Min Sci 115:21–32
Liu J, Chen L, Wang C, Man K, Wang L, Wang J, Su R (2014) Characterizing the mechanical tensile behavior of Beishan granite with different experimental methods. Int J Rock Mech Min Sci 69(3):50–58
Liu J, Li Y, Xu S, Xu S, Jin C (2015) Cracking mechanisms in granite rocks subjected to uniaxial compression by moment tensor analysis of acoustic emission. Theoret Appl Fract Mech 75:151–159
Liu H, Zhu W, Yu Y, Xu T, Li R, Liu X (2020) Effect of water imbibition on uniaxial compression strength of sandstone. Int J Rock Mech Min Sci 127:104200
Lockner D (1993) The role of acoustic emission in the study of rock fracture. Int J Rock Mech Min Sci Geomech Abstr 30(7):883–899
Ohnaka M, Mogi K (1982) Frequency characteristics of acoustic emission in rocks under uniaxial compression and its relation to the fracturing process to failure. J Geophys Res: Solid Earth 87(B5):3873–3884
Ohtsu M (1991) Simplified moment tensor analysis and unified decomposition of acoustic emission source: application to in situ hydrofracturing test. J Geophys Res: Solid Earth 96(B4):6211–6221
Ohtsu M, Okamoto T, Yuyama S (1998) Moment tensor analysis of acoustic emission for cracking mechanisms in concrete. Struct J 95(2):87–95
Ojo O, Brook N (1990) The effect of moisture on some mechanical properties of rock. Min Sci Technol 10(2):145–156
Okubo S, Fukui K (1996) Complete stress-strain curves for various rock types in uniaxial tension. Int J Rock Mech and Min Sci Geomech Abstr 33(6):549–556
Perras MA, Diederichs MS (2014) A review of the tensile strength of rock: concepts and testing. Geotech Geol Eng 32(2):525–546
Rabat Á, Tomás R, Cano M (2020) Evaluation of mechanical weakening of calcarenite building stones due to environmental relative humidity using the vapour equilibrium technique. Eng Geol 278:105849
Shakoor A, Barefield E (2009) Relationship between unconfined compressive strength and degree of saturation for selected sandstones. Environ Eng Geosci 15(1):29–40
Shiotani T, Ohtsu M, Ikeda K (2001) Detection and evaluation of AE waves due to rock deformation. Constr Build Mater 15(5):235–246
Stimpson B, Chen R (1993) Measurement of rock elastic moduli in tension and in compression and its practical significance. Can Geotech J 30(2):338–347
Sun X, Xu H, Zheng L, He M, Gong W (2016) An experimental investigation on acoustic emission characteristics of sandstone rockburst with different moisture contents. Sci China Technol Sci 59(10):1549–1558
Talesnick M, Hatzor YH, Tsesarsky M (2001) The elastic deformability and strength of a high porosity, anisotropic chalk. Int J Rock Mech Min Sci 38(4):543–555
Ulusay R (2015) The ISRM suggested methods for rock characterization, testing and monitoring: 2007–2014. Springer Cham
Van E (1976) The mechanisms of strength reduction due to moisture in coal mine shales. Int J Rock Mech Min Sci Geomech Abstr 13(2):61–67
Verstrynge E, Adriaens R, Elsen J, Van Balen K (2014) Multi-scale analysis on the influence of moisture on the mechanical behavior of ferruginous sandstone. Constr Build Mater 54:78–90
Vishal V, Ranjith P, Singh TN (2015) An experimental investigation on behaviour of coal under fluid saturation, using acoustic emission. J Nat Gas Sci Eng 22:428–436
Wang M, Tan C, Meng J, Yang B, Li Y (2017) Crack classification and evolution in anisotropic shale during cyclic loading tests by acoustic emission. J Geophys Eng 14(4):930–938
Wang W, Yao Q, Tang C, Li X, Chong Z, Xu Q (2021) Experimental study on the shear characteristics and weakening mechanism of water-bearing rock joints. Bull Eng Geol Env 80(10):7653–7668
Wang Y, Deng J, Li L, Zhang Z (2019) Micro-failure analysis of direct and flat loading Brazilian tensile tests. Rock Mech Rock Eng 52(11):4175–4187
Wong LNY, Jong MC (2014) Water saturation effects on the Brazilian tensile strength of gypsum and assessment of cracking processes using high-speed video. Rock Mech Rock Eng 47(4):1103–1115
Wu C, Chen X, Hong Y, Xu R, Yu D (2018) Experimental investigation of the tensile behavior of rock with fully grouted bolts by the direct tensile test. Rock Mech Rock Eng 51(1):351–357
Yao Q, Chen T, Ju M, Liang S, Liu Y, Li X (2016) Effects of water intrusion on mechanical properties of and crack propagation in coal. Rock Mech Rock Eng 49(12):4699–4709
Zang A, Christian F, Stanchits S, Dresen G, Andresen R, Haidekker M (1998) Source analysis of acoustic emissions in Aue granite cores under symmetric and asymmetric compressive loads. Geophys J Int 135(3):1113–1130
Zhang Y, Liang P, Liu X, Liu S, Tian B (2015) Experimental study on precursor of rock burst based on acoustic emission signal dominant -frequency and entropy. Chin J Rock Mech Eng 34:2959–2967
Zhang Z, Deng J, Zhu J, Li L (2018) An experimental investigation of the failure mechanisms of jointed and intact marble under compression based on quantitative analysis of acoustic emission waveforms. Rock Mech Rock Eng 51(7):2299–2307
Zhang Z, Deng J (2020) A new method for determining the crack classification criterion in acoustic emission parameter analysis. Int J Rock Mech Min Sci 130
Zhao K, Yang D, Zeng P, Huang Z, Wu W, Li B, Teng T (2021) Effect of water content on the failure pattern and acoustic emission characteristics of red sandstone. Int J Rock Mech Min Sci 142:104709
Zhu J, Deng J, Chen F, Huang Y, Yu Z (2020) Water saturation effects on mechanical and fracture behavior of marble. Int J Geomech 20(10):04020191. https://doi.org/10.1061/(ASCE)GM.1943-5622.0001825
Zhu J, Deng J, Chen F, Wang F (2022) Failure analysis of water-bearing rock under direct tension using acoustic emission. Eng Geol 299:106541
Zhu J, Deng J, Huang Y, Yu Z (2019) Experimental study on characteristic strength of saturated marble. Chin J Rock Mech Eng 38(6):1129–1138
Funding
This research was supported by the Sichuan Science and Technology Program (Grant No. 2023NSFSC0786), the National Natural Science Foundation of China (Grant No. U19A2098), and the National Key Research and Development Program of China (Grant No. 2018YFC1505004).
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Competing interest
The authors declare no competing interests.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Zhu, J., Deng, J., Pak, R.Y.S. et al. Experimental study on the failure process of water-bearing rock under uniaxial tension based on dominant frequency analysis of acoustic emission. Bull Eng Geol Environ 82, 233 (2023). https://doi.org/10.1007/s10064-023-03246-9
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s10064-023-03246-9