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THE INFLUENCE OF LOADING SPEED IN THE CLASSICAL BRAZILIAN TESTS ON AN ESTIMATE VALUE OF FRACTURE TOUGHNESS INDICATOR (KIC) FOR EXAMPLE POLISH FLYSCH SANDSTONES

. Student Lukasz Pieczara

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b12/s2.118View metrics

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Title
THE INFLUENCE OF LOADING SPEED IN THE CLASSICAL BRAZILIAN TESTS ON AN ESTIMATE VALUE OF FRACTURE TOUGHNESS INDICATOR (KIC) FOR EXAMPLE POLISH FLYSCH SANDSTONES
Authors
. Student Lukasz Pieczara
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-08-7
Language
en
Publication type
Conference Paper
Keywords
References22
  1. Ouchterlony F. Fracture toughness testing of rock with core based specimens, the development of an ISRM standard. Fracture Toughness and Fracture Energy. Test methods for concrete and rock. Balkema, Netherland, pp 231-251, 1989.

  2. ISRM. Suggested methods for determining the fracture toughness of rock, Int. J. Rock Mechs. Min. Sci. & Geomech. Abstr., Pergamon Press, Great Britain, vol. 25/issue 2, pp 71-96, 1988.

  3. ISRM. Suggested method for determining Mode I fracture toughness using cracked chevron notched brazilian disc (CCNBD) specimens, Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., Elsevier, Great Britain, vol. 32/issue 1, pp 57-64, 1995

  4. Matsuki K., Hasibuan S.S., Takahashi H., Specimen size requirements for determining the inherent fracture toughness of rocks according to the ISRM suggested methods, Int. J. Rock Mechs. Min. Sci. & Geomech. Abstr., Pergamon Press, Great Britain,, vol. 28/issue 5, pp 365-374, 1991

  5. Bazant Z.P. & Kazemi M.T., Determination of fracture energy, process zone length and brittleness number from size effect, with application to rock and concrete, Int. Journ. of Fracture, Kluli'er Academic Publishers, Netherlands, vol. 44, pp 111-131, 1990.

  6. ISRM. Suggested methods for determining tensile strength of rock materials, Int. J. Rock Mechs. Min. Sci. & Geomech. Abstr., Pergamon Press, Great Britain, vol. 15, pp 99-103, 1978.

  7. Minh V.C., Energy analysis of deformation and failure in rocks, Ph. D. Thesis, University of Warsaw, Poland, vol. 436/89, 1989

  8. Polish Industry Standard BN-75/8704-05: (in polish) Determination of the tensile strength by compression method, Poland, 1975.

  9. Pettijohn F.J., Potter P.E. and Siever R. Sand and sandstone. Springer-Verlag, USA, 618 pp, 1972

  10. Dziedzic A., Structural control on fracture toughness (brittle cracking) in the Krosno Sandstones of Mucharz, southern Poland, Geol. Quarterly, Poland, vol. 47/issue 1, pp 21-28, 2003.

  11. Dziedzic A., Cracking anisotropy exemplified by Krosno sandstones of Mucharz (Beskid Mały Mountains), Geologija, Lithuania, vol. 50, pp 116-120, 2008.

  12. Ouchterlony F. Fracture toughness testing of rock with core based specimens, the development of an ISRM standard. Fracture Toughness and Fracture Energy. Test methods for concrete and rock. Balkema, Netherland, pp 231-251, 1989.

  13. ISRM. Suggested methods for determining the fracture toughness of rock, Int. J. Rock Mechs. Min. Sci. & Geomech. Abstr., Pergamon Press, Great Britain, vol. 25/issue 2, pp 71-96, 1988.

  14. ISRM. Suggested method for determining Mode I fracture toughness using cracked chevron notched brazilian disc (CCNBD) specimens, Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., Elsevier, Great Britain, vol. 32/issue 1, pp 57-64, 1995

  15. Matsuki K., Hasibuan S.S., Takahashi H., Specimen size requirements for determining the inherent fracture toughness of rocks according to the ISRM suggested methods, Int. J. Rock Mechs. Min. Sci. & Geomech. Abstr., Pergamon Press, Great Britain,, vol. 28/issue 5, pp 365-374, 1991

  16. Bazant Z.P. & Kazemi M.T., Determination of fracture energy, process zone length and brittleness number from size effect, with application to rock and concrete, Int. Journ. of Fracture, Kluli'er Academic Publishers, Netherlands, vol. 44, pp 111-131, 1990.

  17. ISRM. Suggested methods for determining tensile strength of rock materials, Int. J. Rock Mechs. Min. Sci. & Geomech. Abstr., Pergamon Press, Great Britain, vol. 15, pp 99-103, 1978.

  18. Minh V.C., Energy analysis of deformation and failure in rocks, Ph. D. Thesis, University of Warsaw, Poland, vol. 436/89, 1989

  19. Polish Industry Standard BN-75/8704-05: (in polish) Determination of the tensile strength by compression method, Poland, 1975.

  20. Pettijohn F.J., Potter P.E. and Siever R. Sand and sandstone. Springer-Verlag, USA, 618 pp, 1972

  21. Dziedzic A., Structural control on fracture toughness (brittle cracking) in the Krosno Sandstones of Mucharz, southern Poland, Geol. Quarterly, Poland, vol. 47/issue 1, pp 21-28, 2003.

  22. Dziedzic A., Cracking anisotropy exemplified by Krosno sandstones of Mucharz (Beskid Mały Mountains), Geologija, Lithuania, vol. 50, pp 116-120, 2008.

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