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Environmental Earth Sciences
Erschienen in: Environmental Earth Sciences 14/2020

01.07.2020 | Original Article

A new method for assessing slope unloading zones based on unloading strain

verfasst von: Han Bao, Faquan Wu, Pengcheng Xi, Jianmin Xu, Ning Liang, Changgen Yan, Wei Xu, Qun Qi

Erschienen in: Environmental Earth Sciences | Ausgabe 14/2020

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Abstract

Unloading zones are formed in shallow slopes after rock mass relaxation and crack extension. Generally, slope unloading assessment depends on the traditional methods mainly related to the phenomena. However, unloading is a process of energy release. Based on the fracture mechanics and the statistical theory of rock mass structure, a theoretical analysis was performed to establish the relationship between the accumulative opening displacement of unloading cracks and unloading strain, and a new method was proposed to quantify the extent and damage degree of unloading zones according to unloading strain. The new method was applied to assess the slope unloading zones at a hydropower station dam site in Northwest China. Results showed that the accumulative opening displacement curve of unloading cracks regularly varied, and could be easily divided into three parts. The strong and weak unloading zones could be recognized from the slope of the first two parts, while their extent was limited by the two inflexions on each curve. By comparison with the traditional method, the new method confirmed the reasonability in the slope unloading zone assessment. However, with an increase in the unloading degree, the difference in the zonation results obtained from the two methods may increase.
Vorheriger Artikel Experimental study on the failure law of water-bearing coal and the evolution of permeability under plastic flow
Nächster Artikel Runoff and sediment yield modeling in data-sparse catchments in the Garehsoo River basin, northern Iran

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Literatur
Anderson TL (1991) Fracture mechanics: fundamentals and applications. CRC Press, Boca Raton
Andreev VN, Lavrova LD (1984) Experience in studying technogenic unloading in construction pits. Hydrotech Constr 18(2):70–74
Bao H, Zhai Y, Lan HX, Zhang KK, Qi Q, Yan CG (2019) Distribution characteristics and controlling factors of vertical joint spacing in sand-mud interbedded strata. J Struct Geol 128:103886
Bao H, Zhang GB, Lan HX, Yan CG, Xu JB, Xu W (2020b) Geometrical heterogeneity of the joint roughness coefficient revealed by 3D laser scanning. Eng Geol 265:105415
Bao H, Zhang KK, Yan CG, Lan HX, Wu FQ, Zheng H (2020c) Excavation damaged zone division and time-dependency deformation prediction: a case study of excavated rock mass at Xiaowan Hydropower Station. Eng Geol 272:105668  
Bao H, Wu FQ, Niu JR (2018) Effects of test procedures and lithology on estimating the mode I fracture toughness of rocks using empirical relations. Material wissenschaft und Werkstofftechnik 49(8):951–962
Cai TC (1999) Lithostratigraphy of Xinjiang Uygur Autonomous Region. China University of Geosciences Press, Wuhan
Chen G, Chen T, Chen Y, Huang R, Liu M (2018) A new method of predicting the prestress variations in anchored cables with excavation unloading destruction. Eng Geol 241:109–120
Chen HK, Tang HM, He XY, Zhao XT (2013) Study on failure mechanism of gongjiafang bank slope in Wu Gorge of the Three Gorges, the Yangtze River, China. Applied Mechanics and Materials 368:1794–1799
Cho WJ, Kim JS, Lee C, Choi HJ (2013) Gas permeability in the excavation damaged zone at KURT. Eng Geol 164:222–229
GB 50487-2008 (2008) Code for engineering geological investigation of water resources and hydropower. Ministry of water conservancy and hydropower planning and Design Institute, Beijing
Hoek E, Martin CD (2014) Fracture initiation and propagation in intact rock–a review. J Rock Mech Geotech Eng 6(4):287–300
Jiang T, Shen Z, Yang M (2018) A new model approach to predict the unloading rock slope displacement behavior based on monitoring data. Struct Eng Mech 67:105–113
Knott JF (1973) Fundamentals of fracture mechanics. John Wiley-Halsted Press, New York
Lan HX, Chen JH, Macciotta R (2019) Universal confined tensile strength of intact rock. Sci Rep 9:6170
Lan HX, Martin CD, Andersson JC (2013) Evolution of in situ rock mass damage induced by mechanical–thermal loading. Rock Mech Rock Eng 46(1):153–168
Lan HX, Martin CD, Hu B (2010) Effect of heterogeneity of brittle rock on micromechanical extensile behavior during compression loading. J Geophys Res Solid Earth 115(B1):B01202
Li LP, Lan HX, Guo CB, Zhang YS, Li QW, Wu YM (2017) A modified frequency ratio method for landslide susceptibility assessment. Landslides 14(2):1–15
Malan DF (2002) Manuel Rocha medal recipient simulating the time-dependent behaviour of excavations in hard rock. Rock Mech Rock Eng 35(4):225–254
Martino JB, Chandler NA (2004) Excavation-induced damage studies at the Underground Research Laboratory. Int J Rock Mech Min Sci 41:1413–1426
Perras MA, Diederichs MS (2016) Predicting excavation damage zone depths in brittle rocks. J Rock Mech Geotech Eng 8(1):60–74
Qi SW, Wu FQ, Yan FZ (2004) Mechanism of deep cracks in the left bank slope of Jinping first stage hydropower station. Eng Geol 1:129–144
Sato T, Kikuchi T, Sugihara K (2000) In-situ experiments on an excavation disturbed zone induced by mechanical excavation in neogene sedimentary rock at Tono mine, central Japan. Eng Geol 56(1–2):97–108
Song ZH, Liu YR, Yang Q (2015) Experimental and numerical investigation on the stability of a high arch dam with typical problems of nonsymmetry: Baihetan Dam, China. Bull Eng Geol Env 75(4):1555–1570
Sorokin AA (1983) Experience in using air testing for studying jointing of rocks. Hydrotech Constr 17(5):264–274
Sun S, Huang R, Pei X, Zhao SJ (2016) Engineering geological classification of the structural planes for hydroelectric projects in Emeishan Basalts. J Mount Sci 13(2):330–341
Tang LQ, Tang K, Nie DX (2013) High slope stability of diversion power system intake of Jinchuan hydropower station. Journal of Mountain Science 10(6):1109–1117
Walton G, Lato M, Anschütz H, Perras MA, Diederichs MS (2015) Non-invasive detection of fractures, fracture zones, and rock damage in a hard rock excavation—Experience from the Äspö Hard Rock Laboratory in Sweden. Eng Geol 196:210–221
Wang XQ (2011) Radon anomaly analysis of engineering slopes. Adv Mater Res 261:1161–1166
Wu FQ, Liu JY, Liu T, Zhuang HZ, Yan CG (2009) A method for assessment of excavation damaged zone (EDZ) of a rock mass and its application to a dam foundation case. Eng Geol 104(3):254–262
Wu FQ, Wang SJ (2001) A stress–strain relation for jointed rock masses. Int J Rock Mech Min Sci 38(4):591–598
Wu LZ, Deng H, Huang RQ, Zhang LM, Guo XG, Zhou Y (2019a) Evolution of lakes created by landslide dams and the role of dam erosion: a case study of the Jiajun landslide on the Dadu River, China. Quatern Int 503:41–50
Wu LZ, Li SH, Zhang M, Zhang LM (2019b) A new method for classifying rock mass quality based on MCS and TOPSIS. Environ Earth Sci 78(6):199
Wu LZ, Shao GQ, Huang RQ, He Q (2018) Overhanging rock: theoretical, physical and numerical modeling. Rock Mech Rock Eng 51(11):3585–3597
Wu YM, Lan HX (2019) Landslide Analyst—a landslide propagation model considering block size heterogeneity. Landslides 16(6):107–1120
Xia M, Ren GM (2013) Characteristics and mechanism of concentrated unloading in bank slope of Yangqu hydropower station. J Geol Soc India 82(4):421–429
Xu JB, Wei W, Bao H, Zhang KK, Lan HX, Yan CG, Sun WF (2020) Failure models of a loess stacked dam: a case study in the Ansai Area (China). Bull Eng Geol Env 79(2):1009–1021
Xu N, Wu J, Dai F (2018) Comprehensive evaluation of the stability of the left-bank slope at the Baihetan hydropower station in southwest China. Bull Eng Geol Env 77:1567–1588
Yang FQ, Mao JW, Xia HD, Zhao CS, Li MW, Ye HS (2005) Geological characteristics and tectonic settings of Paleozoic epithermal gold deposits in northern Xinjiang. Miner Depos 24(3):242–263
Yang HQ, Zeng YY, Lan YF, Zhou XP (2014) Analysis of the excavation damaged zone around a tunnel accounting for geostress and unloading. Int J Rock Mech Min Sci 69:59–66
Zhao W, Frost JD, Huang R (2017) Distribution and quantitative zonation of unloading cracks at a proposed large hydropower station dam Site. J Mount Sci 14:2106–2121
Zhu Z, Wang C, Kang J, Li Y, Wang M (2014) Study on the mechanism of zonal disintegration around an excavation. Int J Rock Mech Min Sci 67:88–95
Metadaten
Titel
A new method for assessing slope unloading zones based on unloading strain
verfasst von
Han Bao
Faquan Wu
Pengcheng Xi
Jianmin Xu
Ning Liang
Changgen Yan
Wei Xu
Qun Qi
Publikationsdatum
01.07.2020
Verlag
Springer Berlin Heidelberg
Erschienen in
Environmental Earth Sciences / Ausgabe 14/2020
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI
https://doi.org/10.1007/s12665-020-09077-1

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