Likely Effects of Geological Features on Carbonate Rock Strength

Authors

  • Hasan Arman United Arab Emirates University, College of Science, Geology Department Al Ain, UAE
  • Saber Hussein United Arab Emirates University, College of Science, Geology Department Al Ain, UAE
  • Shamma Khalfan Alshehyari Undergraduate students at the United Arab Emirates University, College of Science, Geology Department, UAE
  • Hiba Hashim El Imam Undergraduate students at the United Arab Emirates University, College of Science, Geology Department, UAE
  • Asmaa Ahmad Alhaj Undergraduate students at the United Arab Emirates University, College of Science, Geology Department, UAE
  • Maryam Ali Albedwawi Undergraduate students at the United Arab Emirates University, College of Science, Geology Department, UAE

DOI:

https://doi.org/10.18488/journal.80.2018.51.1.7

Abstract

Rock strength is commonly recognized as a rock ability to resist stress or deformation without breaking down. Its measurement in either in-situ or laboratory environment is costly and requires time-consuming efforts for rock sampling, preparation and laboratory tests. There are different suggested testing methods available such as Unconfined Compressive Strength (UCS), Point Load Index (PLI), Indirect Tensile Strength (ITS), Schmidt Hammer Rebound (SHR), etc. and used to interpret of rock strength properties. The study will only focus on carbonate rocks (Upper Eocene Dammam Formation) which were collected from different selected sites in the Hafeet Mountain area, Al Ain city, United Arab Emirates. Following the sample preparations based on the ASTM standards, about fourth UCS, fourth-one ITS, thirty-seven PLI and hundreds to thousands of SHR tests were carried out on rock blocks and core samples according to ASTM Standards. The study indicates that the relationships between UCS and PLI, ITS, SHR of limestone can be estimated using the simple linear mathematical equations. However, the results exhibit a weak to weaker linear correlation with highly scattered data. This may be due to sample heterogeneity and nature of the sample. Therefore, it still needs better confirmation with more samples from different locations in order to use confidently in engineering applications.

Keywords:

Carbonate rocks, Hafit mountain, Geo-engineering, Rock strength, Geological features, Laboratory tests

Abstract Video

Published

2018-04-24

How to Cite

Arman, H. ., Hussein, S. ., Alshehyari, S. K. ., El Imam, H. H. ., Alhaj, A. A. ., & Albedwawi, M. A. . (2018). Likely Effects of Geological Features on Carbonate Rock Strength. Review of Environment and Earth Sciences, 5(1), 1–7. https://doi.org/10.18488/journal.80.2018.51.1.7

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Section

Articles