TY - CONF UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85014596315&doi=10.1063%2f1.4966871&partnerID=40&md5=35790d37a1a8a6ad8a84907970495f46 A1 - Serasa, A.S. A1 - Lai, G.T. A1 - Rafek, A.G. A1 - Simon, N. A1 - Hussein, A. A1 - Ern, L.K. A1 - Surip, N. A1 - Mohamed, T.R. VL - 1784 Y1 - 2016/// SN - 0094243X PB - American Institute of Physics Inc. N2 - The significant influence of surface roughness of discontinuity surfaces is a quantity that is fundamental to the understanding of shear strength of geological discontinuities. This is due to reason that the shear strength of geological discontinuities greatly influenced the mechanical behavior of a rock mass especially in stability evaluation of tunnel, foundation, and natural slopes. In evaluating the stability of these structures, the study of peak friction angle (Φpeak) of rough discontinuity surfaces has become more prominent seeing that the shear strength is a pivotal factor causing failures. The measurement of peak friction angle however, requires an extensive series of laboratory tests which are both time and cost demanding. With that in mind, this publication presents an approach in the form of an experimentally determined polynomial equation to estimate peak friction angle of limestone discontinuity surfaces by measuring the Joint Roughness Coefficient (JRC) values from tilt tests, and applying the fore mentioned empirical correlation. A total of 1967 tilt tests and JRC measurements were conducted in the laboratory to determine the peak friction angles of rough limestone discontinuity surfaces. A polynomial equation of Ï?peak = -0.0635JRC2 + 3.95JRC + 25.2 that exhibited 0.99 coefficient of determination (R2) were obtained from the correlation of JRC and peak friction angles. The proposed correlation offers a practical method for estimation of peak friction angles of rough discontinuity surfaces of limestone from measurement of JRC in the field. © 2016 Author(s). N1 - cited By 2; Conference of 2016 Postgraduate Colloquium of the Universiti Kebangsaan Malaysia, Faculty of Science and Technology, UKM FST 2016 ; Conference Date: 13 April 2016 Through 14 April 2016; Conference Code:126554 ID - scholars6685 TI - Development of empirical correlation of peak friction angle with surface roughness of discontinuities using tilt test AV - none ER -