EFFECT OF CYCLIC LOADING ON VELOCITY VALUE IN UNIAXIAL COMPRESSIVE STRENGTH TEST
Mining activities have an impact, one of which is changes in the characteristics of the surrounding rocks. Changes in rock characteristics occur because rocks are subjected to cyclic loading and unloading pressures. Cracks in the rock mass that experience cyclic loading can change the ultrasonic...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/76555 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Mining activities have an impact, one of which is changes in the
characteristics of the surrounding rocks. Changes in rock characteristics occur
because rocks are subjected to cyclic loading and unloading pressures. Cracks in
the rock mass that experience cyclic loading can change the ultrasonic wave
velocity. Therefore, it is necessary to analyze the effect of cyclic loading on the
ultrasonic wave velocity of rocks.
The rock samples in this study have different lithologies, consisting of
Magnetite, Skarn, Diorite, Limestone, Granite, Tuff, and Altered Diorite. The
research started with physical properties test, ultrasonic wave propagation speed
test, UCS (Unconfined Compressive Strength) test and uniaxial loading unloading
test of the rock samples. In the unloading loading test, the rock sample was given a
variation of compressive force of 40-80% of the compressive strength (UCS) value.
Afterwards, data processing is carried out and it is observed whether the loading
and unloading loads affect the ultrasonic wave propagation speed and Young's
Modulus values of the rock samples.
The research findings indicate several significant outcomes. Firstly, there
exists a positive relationship between rock density and ultrasonic wave propagation
speed, suggesting that higher rock density corresponds to higher ultrasonic wave
velocities. During loading, Vp experiences an increase ranging from 4.46% to
70.07% from its initial value. On the other hand, during unloading, Vp experiences
a decrease ranging from 5.82% to 33% from its initial value. The decrease in Vp
indicates the presence of cracks in the rock, while the increase in Vp indicates crack
closure, the research shows that higher rock density leads to higher ultrasonic wave
velocity, while higher porosity leads to higher changes in Vp. Loading-unloading
tests affect the presence of cracks in the rock and influence the value of Young's
Modulus.Lastly, the Young's Modulus value, which represents the stiffness of the
material, was also affected by loading-unloading cycles. It was observed that the
Young's Modulus value increased with an increase in the number of loadingunloading
cycles. |
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