The effects of strength parameters on slope failure mechanisms in weak rocks

Z. Karaca; N. Işık

doi:10.1201/9781315388502-102

The effects of strength parameters on slope failure mechanisms in weak rocks

Dinç
, Z. Karaca
, N. Işık

Canakkale Onsekiz Mart University
Gazi University

Araştırma sonucu: Kitap/Rapor/Konferans Bildirisinde Bölüm › Konferans katkısı › bilirkişi

Özet

This research project investigates the planar failure mechanisms of rock slopes by using PFC2D numerical code based on the distinct element methods. The aim of this work is to evaluate further the role of persistence of discontinuities (joints) that controls the planar failure mechanisms of slopes. Three types of rock materials were modeled by using bonded particle model procedures in PFC. The results show that the location of the rock bridges predominantly affect the failure mechanisms of rock slopes as well as the discontinuity length. All rock materials (e.g limestone, claystone and gypsum) with UCS values under 25 MPa, begin to fail initially by the tensile stresses around the rock bridge zones then those will eventually develop tension cracks.

Orijinal dil	İngilizce
Ana bilgisayar yayını başlığı	ISRM International Symposium - EUROCK 2016
Yayınlayan	International Society for Rock Mechanics
Sayfalar	591-594
Sayfa sayısı	4
ISBN (Elektronik)	9781138032651
DOI'lar	https://doi.org/10.1201/9781315388502-102
Yayın durumu	Yayınlandı - 2016
Harici olarak yayınlandı	Evet
Etkinlik	ISRM International Symposium - EUROCK 2016 - Urgup, Türkiye Süre: 29 Ağu 2016 → 31 Ağu 2016

Yayın serisi

Adı	ISRM International Symposium - EUROCK 2016

???event.eventtypes.event.conference???

???event.eventtypes.event.conference???	ISRM International Symposium - EUROCK 2016
Ülke/Bölge	Türkiye
Şehir	Urgup
Periyot	29/08/16 → 31/08/16

Bibliyografik not

Publisher Copyright:
© 2016 Taylor & Francis Group, London

Belgeye Erişim

10.1201/9781315388502-102

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

@inproceedings{7d79255d580e457db267c9145d896e4d,

title = "The effects of strength parameters on slope failure mechanisms in weak rocks",

abstract = "This research project investigates the planar failure mechanisms of rock slopes by using PFC2D numerical code based on the distinct element methods. The aim of this work is to evaluate further the role of persistence of discontinuities (joints) that controls the planar failure mechanisms of slopes. Three types of rock materials were modeled by using bonded particle model procedures in PFC. The results show that the location of the rock bridges predominantly affect the failure mechanisms of rock slopes as well as the discontinuity length. All rock materials (e.g limestone, claystone and gypsum) with UCS values under 25 MPa, begin to fail initially by the tensile stresses around the rock bridge zones then those will eventually develop tension cracks.",

author = "Din{\c c} and Z. Karaca and N. I{\c s}ık",

note = "Publisher Copyright: {\textcopyright} 2016 Taylor \& Francis Group, London; ISRM International Symposium - EUROCK 2016 ; Conference date: 29-08-2016 Through 31-08-2016",

year = "2016",

doi = "10.1201/9781315388502-102",

language = "English",

series = "ISRM International Symposium - EUROCK 2016",

publisher = "International Society for Rock Mechanics",

pages = "591--594",

booktitle = "ISRM International Symposium - EUROCK 2016",

}

Dinç, Karaca, Z & Işık, N 2016, The effects of strength parameters on slope failure mechanisms in weak rocks. in ISRM International Symposium - EUROCK 2016. ISRM International Symposium - EUROCK 2016, International Society for Rock Mechanics, pp. 591-594, ISRM International Symposium - EUROCK 2016, Urgup, Türkiye, 29/08/16. https://doi.org/10.1201/9781315388502-102

TY - GEN

T1 - The effects of strength parameters on slope failure mechanisms in weak rocks

AU - Dinç,

AU - Karaca, Z.

AU - Işık, N.

PY - 2016

Y1 - 2016

N2 - This research project investigates the planar failure mechanisms of rock slopes by using PFC2D numerical code based on the distinct element methods. The aim of this work is to evaluate further the role of persistence of discontinuities (joints) that controls the planar failure mechanisms of slopes. Three types of rock materials were modeled by using bonded particle model procedures in PFC. The results show that the location of the rock bridges predominantly affect the failure mechanisms of rock slopes as well as the discontinuity length. All rock materials (e.g limestone, claystone and gypsum) with UCS values under 25 MPa, begin to fail initially by the tensile stresses around the rock bridge zones then those will eventually develop tension cracks.

AB - This research project investigates the planar failure mechanisms of rock slopes by using PFC2D numerical code based on the distinct element methods. The aim of this work is to evaluate further the role of persistence of discontinuities (joints) that controls the planar failure mechanisms of slopes. Three types of rock materials were modeled by using bonded particle model procedures in PFC. The results show that the location of the rock bridges predominantly affect the failure mechanisms of rock slopes as well as the discontinuity length. All rock materials (e.g limestone, claystone and gypsum) with UCS values under 25 MPa, begin to fail initially by the tensile stresses around the rock bridge zones then those will eventually develop tension cracks.

UR - https://www.scopus.com/pages/publications/85060970825

U2 - 10.1201/9781315388502-102

DO - 10.1201/9781315388502-102

M3 - Conference contribution

AN - SCOPUS:85060970825

T3 - ISRM International Symposium - EUROCK 2016

SP - 591

EP - 594

BT - ISRM International Symposium - EUROCK 2016

PB - International Society for Rock Mechanics

T2 - ISRM International Symposium - EUROCK 2016

Y2 - 29 August 2016 through 31 August 2016

ER -

The effects of strength parameters on slope failure mechanisms in weak rocks

Özet

Yayın serisi

???event.eventtypes.event.conference???

Bibliyografik not

Belgeye Erişim

Diğer Dosyalar ve Linkler

Parmak izi

Alıntı Yap