Ультразвуковые исследования физико-механических свойств известняков

ЧЕНГИЗ КУРТУЛУС, СЕРАФЕДДИН ЧАКИР, АХМЕТ ДЖЕМ ЙОГУРТЧУОГЛУ

Аннотация


С помощью регрессивного анализа выявлены эмпирические взаимосвязи между скоростью упругой P-волны (импульса сжатия) и рядом физических, прочностных и деформационных характеристик известняков, отобранных из карьеров Турции. Результаты могут быть использованы при определении свойств известняковых скальных пород в инженерных целях.

Литература


Kurtulus C., Sertcelik F., Canbay M. and Sertcelik I. Estimation of Atterberg limits and bulk mass density of an expansive soil from P-wave velocity measurements, Bull. Eng. Geol. Environ., 2010. - № 69. - Pp. 153-154.

Kurtulus C., Irmak T.S. and Sertcelik I. Physical and mechanical properties of Gokceada: Imbros (NE Aegean Sea) Island andesites, Bull. Eng. Geol. Environ., DOI: 10.1007/s10064-010-0270-6 (2010).

Christaras B. P-wave velocity and quality of building materials, In: Proc. Int. Symp. Industrial Minerals and Building Stones, 2003. - Pp. 295-300.

Kahraman S. A correlation between P-wave velocity, number of joints and Schmidt hammer rebound number, Int. J. Rock Mech. Min. Sci. 38, 2001. - Pp. 729-733.

Gaviglio P. Longitudinal waves propagation in a limestone: the relationship between velocity and density, Rock Mech. Rock Eng. 22, 1989. - Pp. 299-306.

Gladwin M.T. Ultrasonic stress monitoring in underground mining, Int. J. Rock Mech. Min. Sci. 19, 1982 . - Pp. 221-228).

Brovtsyn K. and Chershneva G.S. Experimental Ultrasonic Study Of The Moisture Content Of Clay Rocks, Refractories and Industrial Ceramics, 2000. - Vol. 41. - № 9. - Nos. 9-10. - Pp. 35 - 36.

Lebedev M., Bilenko O., Mikhaltsevitch V., Pervukhina M. and Gurevich B. Laboratory measurements of ultrasonic velocities in CO2 saturated brines. Energy Procedia 63: 4273-4280 (2014).

ASTM D7012-10, Standard test method for compressive strength and elastic moduli of intact rock core specimens under varying states of stress and temperatures. - 2010.

ISRM. The Complete ISRM Suggested Methods for Rock Characterization, Testing and Monitoring, [R. Ulusay and J.A. Hudson, editors], 1974-2006. - Kozan Ofset Matbaac1l1k, Ankara, Turkey, 2007.

Sarno A.I. Correlations of static, dynamic, and physical properties to the weathering state of Ocala limestone, MS thesis, University of North Florida, Jacksonville, FL. - 2010.

Dincer L., Acar A., Cobanoglu L. and Y.Uras Y. Correlation between Schmidt hardness, uniaxial compressive stress and Young's modulus for andesites, basalts and tuff // Bulletin of Engineering Geology and the environment, 63, 2004. - № 2. - Pp. 141-148.

Kahraman S. Evaluation of simple methods for assessing the uniaxial compressive strength of rock, Int.J. Rock Mech. Min. Sci. 38, 2001. - Pp. 981-994.

Romana M. Correlation between uniaxial compressive and point load (Franklin test) strengths for different rock classes, In: 9th ISRM Congress 1, Paris, 1999. - Pp. 673-676.

Kahraman S., Fener M. and Kozman E. Predicting the compressive and tensile strength of rocks from indentation hardness index // The Journal of The Southern African Institute of Mining and Metallurgy 112, 2012. - Pp. 331-339.

Canakci C., Baskayoglu A. and Gullu H. Prediction of compressive and tensile strength of Gaziantep basalts via neural networks and gene expression programming // Neural Computing and Applications 18, 2009. - Pp. 1031-1041.

Palchik V. and Hatzor Y.H. The influence of porosity on tensile and compressive strength of porous chalks// Rock Mechanics and Rock Engineering, 37, 2004. - № 4. - Pp. 331-341.

Zattin M., Cavazza W., Okay A.I., Federici I., Fellin M.G., Pignalosa A. and Reiners P. A Precursor of the North Anatolian Fault in the Marmara Sea Region//Journal of Asian Earth Sciences. - 2010. - Pp. 97-108.

Nikitin L.V. and Odintsev V.N. A dilatancy model of tensile macrocracks in compressed rock // Fatigue and Fracture of Engineering Materials and Structures 22. - 1999. - Pp. 1003-1010.

Zacoeb A., Ishibashi K. and Ito Y. Estimating the compressive strength of drilled concrete cores by point load testing // Proceeding of the 29th JCI Annual Meeting, Sendai, Japan, 2006. - Pp. 525-530.

Chau K.T. and Wong R.H.C. Uniaxial compressive strength and point load strength of rocks // Int. Journal of Rock Mech. Min. Sci. and Geomech., 33, 1996. - № 2. - Pp. 183-188.

Singh V.K. and Singh D.P. Correlation between point load index and compressive strength for quartzite rocks // Geotechnical and Geological Engineering, 11, 1993. - Pp. 269-272.

Ghosh D.K. and Srivastava M. Point-load strength: an index for classification of rock material // Bull. Int. Assoc. Eng. Geol., 44, 1991.- Pp. 27-33.

Bieniawski Z.T. Point load test in geotechnical practice // Eng. Geol., 1, 1975. - Pp. 1-11.

Gozubol A.M., Aysal N. Cebecikoy kirectas1 ocaklar1nda litolojik ve yap1sal kokenli isletme s1n1rlar1 // Istanbul Yerbilimleri Dergisi, 21, 2008. - № 1. - Pp. 25-35.

Erguvanl1 K. Hereke Pudingleri ile Gebze taslar1n1n insaat bak1m1ndan etudu ve civarlar1n1n jeolojisi, Doktora Tezi, ITU Insaat Fak., 1949.

Sirel E. and Gunduz H. K1rklareli (Kuzey Trakya) denizel Oligoseninin stratigrafisi ve nummulites turleri // Turkiye Jeoloji Kurumu Bulteni, 19, 1976. - Pp. 155-158.

Tugrul A., Zarif I.H., Y1ld1r1m M. and Gurp1nar O. Istanbuldaki tarihi an1t ve yap1larda kullan1lan kirectaslar1n1n kirlenme ve ayr1smas1nda etkin faktorler // Istanbul Univ. Muh. Fak. Yerbilimleri Dergisi, 12, 1999.

ASTM D5731-08. Standart test method for the determination of the point load strength index of rock and Application to Rock Strength Classification, 2008.

ISRM. Rock Characterization Suggested Method, Testing and Monitoring, Pergamon Press, London, UK, 1987.

ISRM. Suggested methods for determining tensile strength of rock materials, International Journal of Rock Mechanics and Mining Science & Geomechanics, Abstracts, 15, 1978. - Pp. 101-103.

Cargill J.S. and Shakoor A. Evaluation of empirical methods for measuring the uniaxial compressive strength // Int. J. Rock Mech. Min. Sci., 27, 1990. - Pp. 495-503).

Gunsallus K.L. and Kulhawy F.H. A comparative evaluation of rock strength measures // Int. J. Rock Mech. Min. Sci., 21, 1984. - Pp. 233-248.

Forster I.R. The influence of core sample geometry on the axial point-load test // Int. J. Rock Mech. Min.Sci., 20, 1983. - Pp. 291-295.

Hassani F.P., Scoble M.J. and Whittaker B.N. Application of point load index test to strength determination of rock and proposals for new size-correction chart // In: Proceedings of the 21st US Symposium on Rock Mechanics, Rolla, 1989. - Pp. 543-564).

Read J.R.L., Thornten P.N. and Regan W.M. A rational approach to the point load test // In: Proceedings Aust-NZ Geomechanics, 2, 1980. - Pp. 35-39.

Broch E. and Franklin J.A. Point-load strength test," Int. J. Rock Mech. Min. Sci., 9, 1972. - № 6. - Pp. 669-697.

D'Andrea D.V., Fisher R.L. and Fogelson D.E. Prediction of compression strength from other rock properties // Colo. Sch. Mines Q, 59(4B), 1964. - Pp. 623-640.

Tugrul A. and Zarif I.H. Correlation of Mineralogical and Textural Characteristics with Engineering Properties of Selected Granitic Rocks from Turkey // Engineering Geology, 51, 1999. - Pp. 303-317.

Yasar E. and Erdogan Y. Estimation of rock physiomechanical properties using hardness methods // Eng. Geol., 71, 2004. - Pp. 281-288.

Nurgalieva N.D. and Nurgalieva N.G. Porosity Estimation Of Carbonate Rocks With Multispec Processing Technique, ARPN Journal of Engineering and Applied Sciences, 2014. - Vol. 9. - № 1.

Sharma P.K. and Singh T.N. A correlation between P-wave velocity, impact strength index, slake durability index and uniaxial compressive strength // Bull. Eng. Geol. Environ., 67, 2007. - Pp. 17-22, DOI.10.1007/s10064-007-0109-y.

Kahraman S. and Yeken T. Determination of physical properties of carbonate tocks from P-wave velocity // Bull. Engineering Geol. Environ., 67, 2008. - Pp. 227-281.

Yag1z S. P-wave velocity test for assessment of geotechnical properties of some rock materials // Bull.Mater. Sci., 34, 2011. - Pp. 947-953.

Sheraz A.M., Emad M.Z., Shahzad M. and Arshad S.M. Relation between uniaxial compressive strength, point load index and sonic wave velocity for dolerite // Pakistan Journal of Science, 66, 2014. -Pp. 60-66.

Anon Classification of rocks and soils for engineering geological mapping. Part 1-rock and soil materials // Bull. Int. Eng. Geol., 19, 1979. - Pp. 364-371.

Moos A.V. and De Quervain F. Technishe Gesteinkunde, Verlag Birkhauser, Basel, 1948.


Ссылки

  • На текущий момент ссылки отсутствуют.