Skip to main content
Disciplines
Automotive Business IT + Informatics Construction + Real Estate Electrical Engineering + Electronics Energy + Sustainability Insurance + Risk Finance + Banking Management + Leadership Marketing + Sales Mechanical Engineering + Materials
Events
DE
EN
Books
Journals
Topic Page
Marketing
Start single access now
Access for companies
EXTENDED SEARCH
Log in
Top
Bulletin of Engineering Geology and the Environment
Published in: Bulletin of Engineering Geology and the Environment 6/2022

01-06-2022 | Original Paper

Comparative study on the deformation moduli of roadway surrounding rock in coal mines: a case study

Authors: Qiang Xu, Qiang-ling Yao, Chang-hao Shan, Jun-qiang Ma, Jie Li

Published in: Bulletin of Engineering Geology and the Environment | Issue 6/2022

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

Since deformation modulus of rock mass is an important parameter for analyzing the mechanical properties of roadway surrounding rock in coal mines, accurate acquisition of the deformation modulus of roadway surrounding rock is essential for mining design, roadway support, and disaster prevention. To achieve this aim, the roadway surrounding rock in Chahasu Coal Mine was taken as the research case. First, uniaxial compression experiments and true triaxial compression experiments were carried out on coal and rock samples. The laboratory deformation modulus of rock mass was determined by stress–strain curves, and the in situ deformation modulus of rock mass in coring boreholes was obtained with the aid of the GY-75 borehole jack. Meanwhile, based on the results of rock mass quality evaluation, the estimated values of deformation moduli of roadway surrounding rock were obtained through an empirical equation. As displayed through the comparative study on the relations between deformation moduli obtained by different methods, with the increase of rock mass depth, in situ deformation modulus increases gradually with reduced growth amplitudes, and its spatial distribution characteristics can be expressed by an exponential function. For roadway surrounding rocks at the same depth, the relation between in situ deformation modulus and deformation moduli obtained from the uniaxial compression experiment and the true triaxial compression experiment can be given by an exponential function and a linear function, respectively. The empirical equation based on the single index RMR shows strong applicability in estimating the deformation modulus of roadway surrounding rock.
previous article Influence of grain size or anisotropy on the correlation between uniaxial compressive strength and sound velocity
next article Hydraulic properties of ignimbrites: matrix and fracture permeabilities in two pyroclastic flow deposits from Cimino-Vico volcanoes (Italy)

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now
Literature
Ajalloeian R, Mohammadi M (2014) Estimation of limestone rock mass deformation modulus using empirical equations. Bull Eng Geol Env 73:541–550CrossRef
Aksoy CO, Genis M, Ladas GU, Ozacar V, Ozer SC, Yilmaz O (2012) A comparative study of the determination of rock mass deformation modulus by using different empirical approaches. Eng Geol 131:19–28CrossRef
Alemdag S, Gurocak Z, Gokceoglu C (2015) A simple regression based approach to estimate deformation modulus of rock masses. J Afr Earth Sc 110:75–80CrossRef
Bahaaddini M, Moghadam EH (2019) Evaluation of empirical approaches in estimating the deformation modulus of rock masses. Bull Eng Geol Env 78:3493–3507CrossRef
Bieniawski ZT (1978) Determining rock mass deformability: experience from case histories. Int J Rock Mech Min Sci 15:237–247CrossRef
Bieniawski ZT, Bernede MJ (1979) Suggested methods for determining the uniaxial compressive strength and deformability of rock materials. Int J Rock Mech Min Sci Geomech Abstr 16(2):138–140CrossRef
Cai MF, He MC, Liu DY (2013) Rock mechanics and engineering. Science Press, Beijing
Deng WJ, Lu XJ, Fang HG, Yu LX (2012) Application of borehole elastic modulus testing technology. J Yangtze River Sci Res Inst 29(8):67–71. (in Chinese)
Dong S, Yi XY, Feng WK (2019) Quantitative evaluation and classification method of the cataclastic texture rock mass based on the structural plane network simulation. Rock Mech Rock Eng 52:1767–1780CrossRef
Fairhurst CE, Hudson JA (2000) Draft ISRM recommended method for determining complete stress-strain curve of intact rock by uniaxial compression test. Chin J Rock Mech Eng 19(6):802–808
Fan L, Huang ZJ, Zhou HM, Zhang YH, Li WS (2016) Study on strength parameters of in-situ rock mass considering intermediate. Chin J Rock Mech Eng 35(1):2682–2686
Fattahi H, Moradi A (2018) A new approach for estimation of the rock mass deformation modulus: a rock engineering systems-based model. Bull Eng Geol Env 77:363–373CrossRef
Feng XD, Jimenez R (2015) Estimation of deformation modulus of rock masses based on Bayesian model selection and Bayesian updating approach. Eng Geol 199:19–27CrossRef
Galera JM, Alvarez M, Bieniawski ZT (2007) Evaluation of the deformation modulus of rock masses using RMR: comparison with dilatometer tests. Underground Works under Special Conditions Workshop, LisbonCrossRef
Gholamnejad J, Bahaaddini H, Rastegar M (2013) Prediction of the deformation modulus of rock masses using artificial neural networks and regression methods. Int J Min Reclam Environ 4:35–43
Gokceoglu C, Sonmez H, Kayabasi A (2003) Predicting the deformation moduli of rock masses. Int J Rock Mech Min Sci 40(5):701–710CrossRef
Goodman RE, Van TK, Heuze FE (1968) Measurement of rock deformability in boreholes. Proc. 10th U.S. Symposium on Rock Mechanics. University of Texas, Austin, pp 523–555
Goodman RE (1989) Introduction to rock mechanics. John Wiley and Sons, New York
Heuze FE (1984) Suggested method for estimating the in-situ modulus of deformation of rock using the NX-borehole jack. Geotech Test J 7(4):205–210CrossRef
Hoek E, Diederichs MS (2006) Empirical estimation of rock mass modulus. Int J Rock Mech Min Sci 43:203–215CrossRef
Isik NS, Doyuran V, Ulusay R (2008) Assessment of deformation modulus of weak rock masses from pressuremeter tests and seismic surveys. Bull Eng Geol Env 67:293–304CrossRef
Jesse L, Yow JR (1996) Suggested method for deformability determination a stiff dilatometer. Int J Rock Mech Min Sci Geomech Abstr 33(7):733–741CrossRef
Justoa JL, Justoa E, Duranda P, Azanon M (2009) Validation of models and empirical equations to estimate deformations in jointed rock through the monitoring of a 40-storey tower foundation. Int J Rock Mech Min Sci 46:381–396CrossRef
Kang SS, Kim HY, Jang BA (2013) Correlation of in situ modulus of deformation with degree of weathering. RMR and Q-System Environ Earth Sci 68(8):2671–2678CrossRef
Kavur B, Cvitanovic NS, Hrzenjak P (2015) Comparison between plate jacking and large flat jack test results of rock mass deformation modulus. Int J Rock Mech Min Sci 73:102–114CrossRef
Kayabasi A, Gokceoglu C, Ercanoglu M (2003) Estimating the deformation modulus of rock masses: a comparative study. Int J Rock Mech Min Sci 40(1):55–63CrossRef
Ladanyi B (1987) Suggested methods for deformability determination using a flexible dilatometer. Int J Rock Mech Min Sci Geomech Abstr 24(2):123–134CrossRef
Li GY, Gao F (2010) Borehole elastic modulus meter method for measuring deformation characteristics of rock mass. Hydraulic rock mechanics on Harmonious earth- Proceedings of the third National Conference on hydraulic and rock mechanics 106–110
Liu SW, Luo YF, Jia HS (2018) Energy response characteristics of rock interface under drilling of roof anchorage borehole in coal roadway. J China Univ Min Technol 47(1):88–96
Palmstrom A, Singh R (2001) The deformation modulus of rock masses comparisons between in situ tests and indirect estimates. Tunn Undergr Space Technol 16:115–131CrossRef
Panthee S, Singh PK, Kainthola A, Das R, Singh TN (2018) Comparative study of the deformation modulus of rock mass. Bull Eng Geol Env 77(2):751–760CrossRef
Radovanovic S, Rankovic V, Andelkovic V, Divac D, Milivojevic N (2018) Development of new models for the estimation of deformation moduli in rock masses based on in situ measurements. Bull Eng Geol Env 77(3):1191–1201CrossRef
Ramamurthy T (2004) A geo-engineering classification for rocks and rock masses. Int J Rock Mech Min Sci 41:89–101CrossRef
Report of the Commission on Terminology (1975) International Society for Rock Mechanics. Lisbon
Shen JY, Karakus M, Xu CS (2012) A comparative study for empirical equations in estimating deformation modulus of rock masses. Tunn Undergr Space Technol 32:245–250CrossRef
Sonmez H, Gokceoglu C, Nefeslioglu HA, Kayabasi A (2006) Estimation of rock modulus: for intact rocks with an artificial neural network and for rock masses with a new empirical equation. Int J Rock Mech Min Sci 43:224–235CrossRef
You MQ, Su CD (2003) Heterogeneity of rock and the definition of young’s modulus. Chin J Rock Mech Eng 22(5):757–761. (in Chinese)
Zhang K, Hou RB, Gamage RP (2016) A modified NX-borehole jack with flexible loading platens. Eng Geol 209:152–162CrossRef
Zhang LY, Einstein HH (2004) Using RQD to estimate the deformation modulus of rock masses. Int J Rock Mech Min Sci 41:337–341CrossRef
Zhang LY (2017) Evaluation of rock mass deformability using empirical methods-a review. Undergr Space 2(1):1–15CrossRef
Metadata
Title
Comparative study on the deformation moduli of roadway surrounding rock in coal mines: a case study
Authors
Qiang Xu
Qiang-ling Yao
Chang-hao Shan
Jun-qiang Ma
Jie Li
Publication date
01-06-2022
Publisher
Springer Berlin Heidelberg
Published in
Bulletin of Engineering Geology and the Environment / Issue 6/2022
Print ISSN: 1435-9529
Electronic ISSN: 1435-9537
DOI
https://doi.org/10.1007/s10064-022-02722-y

Other articles of this Issue 6/2022

Bulletin of Engineering Geology and the Environment 6/2022 Go to the issue

Original Paper

Large-scale model test for studying the water inrush during tunnel excavation in fault

Original Paper

Experimental study and numerical simulation on effectiveness of different capillary barriers in silt low subgrade

Original Paper

Depth-consistent models for probabilistic liquefaction potential assessment based on shear wave velocity

Original Paper

Risk assessment on the stability of barrier dam induced by Caijiaba landslide, SW China

Original Paper

Failure mechanism of a high-locality colluvial landslide in Wanzhou County, Chongqing, China

Original Paper

Study on correlation between ground motion parameters and soil slope seismic response