ANALYSIS OF REINFORCEMENT SYSTEM (ROCK BOLT AND SHOTCRETE) EFFECT ON THE PILLARS STRENGTH IN UNDERGROUND MINING USING PHYSICAL MODELS TESTING IN LABORATORY
Pillars are natural supports which hold the material load on top. As a natural support, pillars require a special reinforcement system so they do not experience failure during underground mining activities. In this study, physical model of the pillar was made of a mixture of sand, cement and wate...
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| Format: | Theses |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/32654 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Pillars are natural supports which hold the material load on top. As a natural
support, pillars require a special reinforcement system so they do not experience
failure during underground mining activities. In this study, physical model of the
pillar was made of a mixture of sand, cement and water, with strengths resembling
coal strength in Indonesia. Then the pillars are divided into four types, that are
pillars without reinforcement, pillars with reinforcement of rock bolt, pillars with
reinforcement of shotcrete and pillars with combined reinforcement of rock bolt
and shotcrete. Furthermore, the pillars are tested with compressive strength
machines to determine the effect of the reinforcement system on the pillars. The
results of this study indicate that the reinforcement system on high strength pillars
causes a strength increase of 14.93% on pillar with rock bolt reinforcement,
21.45% on pillar with shotcrete reinforcement and 34.67% on pillar with
combination of rock bolt and shotcrete reinforcement. On medium strength pillars,
reinforcement installation shows a strength increase of 16.27% on pillar with
reinforced rock bolt, 19.83% on pillar with reinforced shotcrete and 44.40% on
pillar with combination of rock bolt and shotcrete reinforcement. Likewise, on low
strength pillars, reinforcement installation causes a strength increase of 13.13% on
pillar with reinforced rock bolt, 36.21% on pillar with reinforced shotcrete and
53.85% on pillar with combination of rock bolt and shotcrete reinforcement.
Laboratory test and numerical modeling results show that the increase in strength
occurs because the horizontal displacement on the pillar wall is held by shotcrete
and retaining plate on rock bolt so that the pillar appears to be confining pressure
which causes the horizontal displacement on the surface of pillar wall to be smaller
than the horizontal displacement on pillar without reinforcement. |
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