Skip to main content
Fachgebiete
Automobil + Motoren Bauwesen + Immobilien Business IT + Informatik Elektrotechnik + Elektronik Energie + Nachhaltigkeit Finance + Banking Management + Führung Marketing + Vertrieb Maschinenbau + Werkstoffe Versicherung + Risiko
DE
EN
Bücher
Zeitschriften
Themenseiten
Organisationspsychologie Projektmanagement Marketing Smart Manufacturing
Weitere Formate
Podcasts Webinare Technik Webinare Wirtschaft Kongresse Veranstaltungskalender Awards
Jetzt Einzelzugang starten
Zugang für Unternehmen
Referenzkunden
SLX-Digitalkonferenz: Zukunftswerkstatt 2024

Mehr Umsatz mit Top-Kontakten

Am 7. Mai erfahren Sie, wie Vertriebsteams Leadgenerierung, Leadnurturing und Leadstrategien effizient steuern können.
Erweiterte Suche
Anmelden
nach oben
Rock Mechanics and Rock Engineering
Erschienen in: Rock Mechanics and Rock Engineering 7/2016

29.10.2015 | Technical Note

Stability Analysis of Rock Slope Controlled by Major Geological Discontinuities Based on the Extended Kinematical Element Method

verfasst von: Ke Zhang, Ping Cao, Guowei Ma, Feng Ren, Kaihui Li

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 7/2016

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config
loading …

Excerpt

Rock mass is an aggregate structure composed of intact rock and geological discontinuities such as faults, joints, and fractures. These discontinuities play a dominant role in rock mass failure because of their lower strength compared to that of an intact rock (Zhang et al. 2006). Although there are different scale discontinuities, the potential instability of a rock slope is more sensitive to major geological discontinuities such as fault, fractured or weak zone, and strata interface at a large scale. The rock slope shear failure with major geological discontinuities involves in three typical modes (Baczynski 2000; Read and Stacey 2009), i.e., (1) Mode I, failure tends to occur where the major discontinuities have kinematic freedom to form blocks that may slide or topple; (2) Mode II, sliding along circular or quasi-circular failure paths through the intact rock, which may occur for extremely high slopes or for highly fractured/weathered rock masses; and (3) Mode III, combined failure mode of the above two mechanisms. …
Vorheriger Artikel Modeling Roughness of Rock Discontinuity Surfaces: A Signal Analysis Approach
Nächster Artikel Lessons Learnt from Measurements of Vertical Pressure at a Top Coal Mining Face at Datong Tashan Mines, China

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

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!

Jetzt informieren

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!

Jetzt informieren
Literatur
Baczynski NRP (2000) Stepsim4: “step-path” method for slope risks. In: International conference on geotechnical and geological engineering, Melbourne, Australia, pp 86–92
Cao P, Gussmann P (1999) Kinematical element method and slope stability analysis. Chin J Rock Mech Eng 18(6):663–666 (in Chinese)
Castelli M, Scavia C (1998) A fracture mechanics approach to the analysis of progressive failure of slopes. In: Proceedings of 2nd international symposium on the geotechnics of hard soils and soft rocks, Napoli, pp 1597–1606
Castelli M, Allodi A, Scavia C (2009) A numerical method for the study of shear band propagation in soft rocks. Int J Numer Anal Meth Geomech 33(13):1561–1587CrossRef
Chen ZY (2003) Stability analysis of soil slopes: theory, methods and programs. China Water Power Press, Beijing (in Chinese)
Eberhardt E, Stead D, Coggan JS (2004) Numerical analysis of initiation and progressive failure in natural rock slopes—the 1991 Randa rockslide. Int J Rock Mech Min Sci 41(7):69–87CrossRef
Einstein HH, Veneziano D, Baecher GB, O’Reilly KJ (1983) The effect of discontinuity persistence on rock slope stability. Int J Rock Mech Min Sci Geomech Abstr 20(5):227–236CrossRef
Gussmann P (1982) Kinematical elements for soils and rocks. In: Proceedings of 4th international conference on numerical methods in geomechanics, Edmonton, pp 47–52
Gussmann P (2000) Effective KEM solutions for the limit load and the slope stability problem. Int J Numer Anal Meth Geomech 24(14):1061–1077CrossRef
Hoek E (1983) Strength of jointed rock masses. Geotechnique 23(3):187–223CrossRef
Jennings JE (1970) A mathematical theory for the calculation of the stability of slopes in open cast mines. In: Planning open pit mines, Johannesburg, pp 87–102
Rao SS (2009) Engineering optimization theory and practice, 4th edn. Wiley, Hoboken
Read J, Stacey P (2009) Guidelines for open pit slope design. CSIRO Publishing, Collingwood
Robertson AM (1970) The interpretation of geological factors for use in slope theory. In: Planning open pit mines, Johannesburg, pp 55–71
Sarma SK (1975) Seismic stability of earth dams and embankments. Geotechnique 25(4):743–761CrossRef
Sarma SK (1979) Stability analysis of embankments and slopes. J Geo Eng Div ASCE 105(12):1511–1524
Sun JP, Ning YJ, Zhao ZY (2011) Comparative study of Sarma’s method and the discontinuous deformation analysis for rock slope stability analysis. Geomech Geoeng Int J 6(4):293–302CrossRef
Terzaghi K (1962) Stability of steep slopes on hard unweathered rock. Geotechnique 12:251–270CrossRef
Wyllie DC, Mah CW (2004) Rock Slope Engineering. Spon Press, London and New York
Zhang K, Cao P (2013) Slope seismic stability analysis on kinematical element method and its application. Soil Dyn Earthq Eng 50:62–71CrossRef
Zhang HQ, Zhao ZY, Tang CA, Song L (2006) Numerical study of shear behavior of intermittent rock joints with different geometrical parameters. Int J Rock Mech Min Sci 43:802–816CrossRef
Metadaten
Titel
Stability Analysis of Rock Slope Controlled by Major Geological Discontinuities Based on the Extended Kinematical Element Method
verfasst von
Ke Zhang
Ping Cao
Guowei Ma
Feng Ren
Kaihui Li
Publikationsdatum
29.10.2015
Verlag
Springer Vienna
Erschienen in
Rock Mechanics and Rock Engineering / Ausgabe 7/2016
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI
https://doi.org/10.1007/s00603-015-0877-9

Weitere Artikel der Ausgabe 7/2016

Rock Mechanics and Rock Engineering 7/2016 Zur Ausgabe

Technical Note

Lessons Learnt from Measurements of Vertical Pressure at a Top Coal Mining Face at Datong Tashan Mines, China

Original Paper

Ground Response to Tunnel Re-profiling Under Heavily Squeezing Conditions

BookReview

Qualitative Rockfall Hazard Assessment: A Comprehensive Review of Current Practices

Original Paper

Pre-Peak and Post-Peak Rock Strain Characteristics During Uniaxial Compression by 3D Digital Image Correlation

Technical Note

Study on the Correlations Between Abrasiveness and Mechanical Properties of Rocks Combining with the Microstructure Characteristic

Original Paper

An Analytical Model for Assessing Stability of Pre-Existing Faults in Caprock Caused by Fluid Injection and Extraction in a Reservoir