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Dynamic Compressive Mechanical Properties of Rock-like Material with Bedding Planes Subject to Different Impact Loads
To explore the dynamic mechanical response of layered rocks under different impact pressures, dynamic impact experiments were performed on five sets of layered rock-like specimens at different dips with a splitting Hopkinson compression bar. The effects of impact pressure on the compressive properti...
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| Published in: | KSCE journal of civil engineering 2024, 28(6), , pp.2409-2419 |
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| container_end_page | 2419 |
| container_issue | 6 |
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| container_title | KSCE journal of civil engineering |
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| creator | Xu, Xin Jing, Hongwen Yin, Qian Wu, Jiangyu Guzev, Mikhail Aleksandrovich Jin, Jiawan |
| description | To explore the dynamic mechanical response of layered rocks under different impact pressures, dynamic impact experiments were performed on five sets of layered rock-like specimens at different dips with a splitting Hopkinson compression bar. The effects of impact pressure on the compressive properties of layered rocks are researched. The fracture patterns are also discussed regarding fragmentation morphology, fractal characteristics, and energy dissipation. The findings suggest that the dynamic compressive strength shows the “U” shape variation with the dip angle
θ
, firstly declining and then enlarging. The dynamic compressive strength grows with increased impact pressure at different dip angles. The dynamic compressive strength of the layered rock at different dip angles increased the fastest with the change of impact pressure from 0.2 MPa to 0.3 MPa. The fractal dimension
D
tends to enlarge with increasing impact load. There is a highly linear relationship between them. The
D
of the sample fragments increases slower as the
θ
increases. In general, the absorbed energy declines first and then enlarges. With the higher impact pressure, the percentage of the total absorbed energy increases for each
θ
, besides the energy gains. The broken effect of a high dip angle specimen is better when crushing rock at low impact pressure. And when that is high, it is easy to cut the surrounding rock vertically or parallel to the layer direction. |
| doi_str_mv | 10.1007/s12205-024-1145-x |
| format | article |
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θ
, firstly declining and then enlarging. The dynamic compressive strength grows with increased impact pressure at different dip angles. The dynamic compressive strength of the layered rock at different dip angles increased the fastest with the change of impact pressure from 0.2 MPa to 0.3 MPa. The fractal dimension
D
tends to enlarge with increasing impact load. There is a highly linear relationship between them. The
D
of the sample fragments increases slower as the
θ
increases. In general, the absorbed energy declines first and then enlarges. With the higher impact pressure, the percentage of the total absorbed energy increases for each
θ
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θ
, firstly declining and then enlarging. The dynamic compressive strength grows with increased impact pressure at different dip angles. The dynamic compressive strength of the layered rock at different dip angles increased the fastest with the change of impact pressure from 0.2 MPa to 0.3 MPa. The fractal dimension
D
tends to enlarge with increasing impact load. There is a highly linear relationship between them. The
D
of the sample fragments increases slower as the
θ
increases. In general, the absorbed energy declines first and then enlarges. With the higher impact pressure, the percentage of the total absorbed energy increases for each
θ
, besides the energy gains. The broken effect of a high dip angle specimen is better when crushing rock at low impact pressure. And when that is high, it is easy to cut the surrounding rock vertically or parallel to the layer direction.</description><subject>Civil Engineering</subject><subject>Compression</subject><subject>Compressive properties</subject><subject>Compressive strength</subject><subject>Energy dissipation</subject><subject>Energy exchange</subject><subject>Engineering</subject><subject>Fractal geometry</subject><subject>Fractals</subject><subject>Geotechnical Engineering & Applied Earth Sciences</subject><subject>Impact loads</subject><subject>Industrial Pollution Prevention</subject><subject>Mechanical analysis</subject><subject>Mechanical properties</subject><subject>Physical characteristics</subject><subject>Pressure</subject><subject>Pressure effects</subject><subject>Rock</subject><subject>Rock properties</subject><subject>Rocks</subject><subject>Tunnel Engineering</subject><subject>토목공학</subject><issn>1226-7988</issn><issn>1976-3808</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><recordid>eNqF0V1PHCEUBuBJ0yY16g_oHUnvTGiBAwNzqWu1m2xT48c1YZmDsh_DFGbV_nvRNelluTmEPOfkhLdpvnD2jTOmvxcuBFOUCUk5l4o-f2gOeKdbCoaZj_UuREt1Z8zn5riUFasHhDagDprd-d_BbaMns7QdM5YSH5H8Qv_ghujdhlzlNGKeIhaSArlOfk03cV2JmzDHCp7i9EDOsO_jcE-uNm6o8ma3XKGfyJTIeQwBMw4TmW9HV98WyfXlqPkU3Kbg8Xs9bO4uftzOftLF78v57HRBPQCfKC695qB7pZQ0y9D14DVwcN4EMCh70GbpA7YcnYOuF0YK1OBl10olnA5w2Jzs5w452LWPNrn4Vu-TXWd7en07t5zJ2qdMxV_3eMzpzw7LZFdpl4e6nwWmVCdaqdv_qbZjLYOqxF6VMdePwfxPcWZfQ7P70GwNzb6GZp_hBa23iUk</recordid><startdate>20240601</startdate><enddate>20240601</enddate><creator>Xu, Xin</creator><creator>Jing, Hongwen</creator><creator>Yin, Qian</creator><creator>Wu, Jiangyu</creator><creator>Guzev, Mikhail Aleksandrovich</creator><creator>Jin, Jiawan</creator><general>Korean Society of Civil Engineers</general><general>Springer Nature B.V</general><general>대한토목학회</general><scope>7QH</scope><scope>7UA</scope><scope>8FD</scope><scope>C1K</scope><scope>F1W</scope><scope>FR3</scope><scope>H96</scope><scope>KR7</scope><scope>L.G</scope><scope>ACYCR</scope></search><sort><creationdate>20240601</creationdate><title>Dynamic Compressive Mechanical Properties of Rock-like Material with Bedding Planes Subject to Different Impact Loads</title><author>Xu, Xin ; 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The effects of impact pressure on the compressive properties of layered rocks are researched. The fracture patterns are also discussed regarding fragmentation morphology, fractal characteristics, and energy dissipation. The findings suggest that the dynamic compressive strength shows the “U” shape variation with the dip angle
θ
, firstly declining and then enlarging. The dynamic compressive strength grows with increased impact pressure at different dip angles. The dynamic compressive strength of the layered rock at different dip angles increased the fastest with the change of impact pressure from 0.2 MPa to 0.3 MPa. The fractal dimension
D
tends to enlarge with increasing impact load. There is a highly linear relationship between them. The
D
of the sample fragments increases slower as the
θ
increases. In general, the absorbed energy declines first and then enlarges. With the higher impact pressure, the percentage of the total absorbed energy increases for each
θ
, besides the energy gains. The broken effect of a high dip angle specimen is better when crushing rock at low impact pressure. And when that is high, it is easy to cut the surrounding rock vertically or parallel to the layer direction.</abstract><cop>Seoul</cop><pub>Korean Society of Civil Engineers</pub><doi>10.1007/s12205-024-1145-x</doi><tpages>11</tpages></addata></record> |
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| identifier | ISSN: 1226-7988 |
| ispartof | KSCE Journal of Civil Engineering, 2024, 28(6), , pp.2409-2419 |
| issn | 1226-7988 1976-3808 |
| language | eng |
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| source | ScienceDirect Journals; Springer Nature |
| subjects | Civil Engineering Compression Compressive properties Compressive strength Energy dissipation Energy exchange Engineering Fractal geometry Fractals Geotechnical Engineering & Applied Earth Sciences Impact loads Industrial Pollution Prevention Mechanical analysis Mechanical properties Physical characteristics Pressure Pressure effects Rock Rock properties Rocks Tunnel Engineering 토목공학 |
| title | Dynamic Compressive Mechanical Properties of Rock-like Material with Bedding Planes Subject to Different Impact Loads |
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