The effect of clay content on the relation between uniaxial compressive strength and needle penetration index for clay-bearing rocks

Springer Science and Business Media LLC - 2021
S. Kahraman1, A. Sercan Aloglu2, Egemen Saygin1, Bilal Aydin1
1Mining Engineering Department, Hacettepe University, Ankara, Turkey
2CINER Group, Ankara, Turkey

Tóm tắt

AbstractThe needle penetration index (NPI) test is a non-destructive test that is applicable both in the field and laboratory, and does not require any special sample preparation. This test has been used for the estimation of physico-mechanical properties of soft rocks. In this study, the influence of the clay content on the relation between uniaxial compressive strength (UCS) and the NPI has been investigated for some clay-bearing rocks. The needle penetration tests were carried out at nine different gallery faces during the Cayirhan Coal Mine excavations, and the NPI values were calculated. Claystone, clayey limestone and clay blocks were collected from the locations on which the NPI tests were performed for the determination of rock strength and clay contents. The clay contents and clay fractions of the samples were determined using XRD analysis. A strong correlation has been found between the UCS and the NPI, but some of the data points were scattered. Strong correlations were also found between the NPI and both the total clay content and the smectite content. The UCS values were also strongly correlated to the total clay content and the smectite content. A multiple regression analysis was performed to determine the influence of clay content on the UCS-NPI relation and a very strong model was derived. The correlation coefficient of the multiple regression model is fairly higher than that of the UCS-NPI relation derived by using simple regression analysis. Concluding remark is that the clay content significantly affects the UCS-NPI relation in clay-bearing rocks.

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Tài liệu tham khảo

Ulusay R, Aydan O, Erguler ZA, Ngan-Tillard DJM, Seiki T, Verwaal W, Sasaki Y, Sato A (2014) ISRM suggested method for the needle penetration test. Rock Mech Rock Eng 47:1073–1085

Yamaguchi Y, Ogawa N, Kawasaki M, Nakamura A (1997) Evaluation of seepage failure response potential of dam foundation with simplified tests. J Jpn Soc Eng Geol 38(3):130–144

Aydan O, Watanabe S, Tokashiki N (2008) The inference of mechanical properties of rocks from penetration tests. In: Proc. of the 5th Asian Rock Mechanics Symposium (ARMS5), Tehran, pp 213–220

Erguler ZA, Ulusay R (2007) Estimation of uniaxial compressive strength of clay-bearing weak rocks using needle penetration response. In: Proc. of 11th Congress on International Society for Rock Mechanics, Lisbon, pp 265–268

Park Y, Obara Y, Kan SS (2011) Estimation of uniaxial compressive strength of weak rocks using needle penetrometer. In: Proc. of 12th ISRM International Congress on Rock Mechanics, Beijing, pp 795–798

Aydan O (2012) The inference of physico-mechanical properties of soft rocks and the evaluation of the effect of water content and weathering on their mechanical properties from needle penetration tests. In: Symposium of ARMA, Chicago, Paper No. ARMA12-639 (on CD)

Aydan O, Ulusay R (2013) Geomechanical evaluation of Derinkuyu antique underground city and its implications in geoengineering. Rock Mech Rock Eng 46:731–754

Aydan O, Sato A, Yagi M (2014) The inference of geo-mechanical properties of soft rocks and their degradation from needle penetration tests. Rock Mech Rock Eng 47:1867–1890

JSCE-RMC (1980) A suggested method for investigation and testing of soft rocks. In: Japan Society of Civil Engineers, Rock Mechanics Committee, The 4th Sub-committee, Tokyo (in Japanese)

Okada S, Izumiya Y, Iizuka Y, Horiuchi S (1985) The estimation of soft rock strength around a tunnel by needle penetration test. J Jpn Soc Soil Mech Found Eng 33(2):35–38 (in Japanese)

Takahashi K, Noto K, Yokokawa I (1988) Strength characteristics of Kobe formation in Akashi Strata (No. 1). In: Proc. of 10th Japan National Conference on Geotechnical Engineering, Tokyo, pp 1231–1232 (in Japanese)

Uchida N, Etoh Y, Ono H, Miura N (2004) Strength evaluation of deep mixing soil–cement by needle penetration test. J Jpn Soc Soil Mech Found Eng 52(7):23–25 (in Japanese)

Ulusay R, Erguler ZA (2012) Needle penetration test: evaluation of its performance and possible uses in predicting strength of weak and soft rocks. Eng Geol 149–150:47–56

Takahashi K, Noto K, Yokokawa I (1988) Strength characteristics of Kobe formation in Akashi Strata (No. 1). In: Proc. of 10th Japan National Conf. on Geotech. Eng., The Japanese Geotechnical Society, pp 1231–1232 (in Japanese)

Maruto Co. Ltd., (2006) Penetrometer for Soft Rock: Model SH-70 Instruction Manual. Tokyo, Japan

Kahraman S, Yumsak SM, Koyuncu YA (2016) The predictability of physico-mechanical properties of pyroclastic rocks from the needle penetration index. In: 50th US Rock Mechanics/Geomechanics Symposium, Houston, USA, 26–29 June 2016, Paper No. ARMA16–809 (on CD)

Kahraman S, Aloglu AS, Aydin B, Saygin E (2017) The needle penetration test to predict the coal strength. J Southern Afr Inst Min Metall 117:587–591

Heidari M, Mohseni H, Jalali SH (2017) Reliability assessment of needle penetration index for estimating compressive strength of some sedimentary rocks from the Qom Formation. Central Iran Geopersia 7(1):103–116

Rahimi MR, Mohammadi SD, Heidari M, Jalali SH (2020) Evaluation of the needle penetration test to estimate the uniaxial compressive strength of gypsum rocks. Arab J Geosci 13:14

Haciosmanoglu ME (2004) Development of a subsidence model for Cayirhan coal mine, MSc. Thesis, Middle East Technical University, Turkey

Aydın Y, Funfstuck J (1988) Beypazari Project Report. In: Proc. of the Sixth Coal Congress of Turkey, Zonguldak, pp 53–71 (in Turkish)

ISRM (1985) Suggested method for determining point load strength. Int J Rock Mech Min Sci Geomech Abstr 22:51–60

Jizba DL (1991) Mechanical and Acoustical Properties of Sandstones and Shales. PhD thesis. Stanford University, USA.

Kohno M, Takehara Y, Nishimura T (2018) Effect of structure of clay mineral on the physical and mechanical properties of rock materials. J Soc Mater Sci, Japan 67(3):324–329

He W, Chena K, Hayatdavoudi A, Sawant K, Lomas M (2019) Effects of clay content, cement and mineral composition characteristics on sandstone rock strength and deformability behaviors. J Petrol Sci Eng 176:962–969

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