Abstract
The purpose of this paper is to investigate the strength, physical and engineering index parameters of selected dolomitic rocks with emphasis on grain size. For this purpose, three groups of dolomite from north western Iran, with the same mineral composition but different grain size, were selected; fine grain, medium grain and coarse grain. Three sets of laboratory experiments are performed on 32 samples: first; petrography tests for determining mineral composition and their percentage, and microstructure of rock containing grain size and grain size distribution, second; experiments to determine the physical properties of the rocks included density, compressional and shear wave velocity, and the third category of experiments included uniaxial compressive strength test, Brazilian tensile strength and point load strength. According to the results; there are significant positive correlation between grain size and uniaxial compressive strength (r = 0.89), point load strength (r = 0.58), Brazilian strength (r = 0.69), and average Young’s modulus (r = 0.64). Also, with increasing grain size, density decreases (r = –0.77). There is strong correlation between compressional wave velocity and shear velocity (r = 0.88). There are also a strong correlation among the uniaxial compressive strength, Brazilian tensile strength and point load strength.
Highlights
Micro texture, mineralogical composition, petrographic and microstructural of rocks effect on their mechanical, physical and engineering index properties
The purpose of this paper is to investigate the strength, physical and engineering index parameters of selected dolomitic rocks with emphasis on grain size
Three sets of laboratory experiments are performed on 32 samples: first; petrography tests for determining mineral composition and their percentage, and microstructure of rock containing grain size and grain size distribution, second; experiments to determine the physical properties of the rocks included density, compressional and shear wave velocity, and the third category of experiments included uniaxial compressive strength test, Brazilian tensile strength and point load strength
Summary
Mineralogical composition, petrographic and microstructural of rocks effect on their mechanical, physical and engineering index properties. Microstructure characteristics are related to the grain size, grain shape, and distribution in the matrix, porosity, interlocking, mineralogical composition, quartz content, and etc. Grain size is a significant microstructure parameter that affects the mechanical behavior and physical properties of rock. Grain size is the most fundamental property of sedimentary rocks, affecting their transportation and deposition (Blott & Pye, 2001). Many researchers have investigated effect of grain size on the mechanical properties of rocks. The correlation between grain size and strength parameters are mainly based on the investigation about granitic rocks, but the results are different and are divided into several categories
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
