Development of the monitoring technique on the damage of piles using the biggest shaking table “E-defense”
In case of earthquake damage to buildings, the damage to a superstructure is visible, but the damage to a foundation structure, e.g. the underground pile, is difficult to detect. In this study, the authors aim to develop a monitoring technique for pile damage due to earthquakes. The world’s biggest...
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| creator | Hayashi, Kazuhiro Hachimori, Wataru Kaneda, Shogo Tamura, Shuji Saito, Taiki |
| description | In case of earthquake damage to buildings, the damage to a superstructure is visible, but the damage to a foundation structure, e.g. the underground pile, is difficult to detect. In this study, the authors aim to develop a monitoring technique for pile damage due to earthquakes. The world’s biggest shaking table, E-Defense, was used to reproduce damage to RC pile models embedded in the soil inside a large scale shear box (8m in diameter and 6.5m in height). The diameter of the RC pile model was 154mm. It consisted of mortar (27.2N/mm2 in compressive strength), 6 main reinforcements (6.35mm in diameter) and shear reinforcement hard steel wire (2mm in diameter at intervals of 20mm). The natural period of the superstructure above the pile models is around 0.12sec. The soil consisted of 2 layers. The lower layer is Albany sand of 80% relative density while the upper layer is only 2m from the surface ground and is Kaketsu sand of 60% relative density. Primary four excitations were scaled from JMA Kobe waves in notification at different amplitudes. The maximum acceleration of each wave is 31gal, 67gal, 304gal, and 458gal, respectively. In the test result, reinforcing steels at the pile head of the RC model yielded when the maximum acceleration was 304gal. After that, mortar of the pile head peeled off and a bending shear failure occurred when the maximum acceleration was 458gal. The peak frequency of rotational spectrum on the foundation did not change in elastic range in the piles. However, the peak frequency fell after the plastic hinge occurred. |
| doi_str_mv | 10.1063/1.5005646 |
| format | Conference Proceeding |
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In this study, the authors aim to develop a monitoring technique for pile damage due to earthquakes. The world’s biggest shaking table, E-Defense, was used to reproduce damage to RC pile models embedded in the soil inside a large scale shear box (8m in diameter and 6.5m in height). The diameter of the RC pile model was 154mm. It consisted of mortar (27.2N/mm2 in compressive strength), 6 main reinforcements (6.35mm in diameter) and shear reinforcement hard steel wire (2mm in diameter at intervals of 20mm). The natural period of the superstructure above the pile models is around 0.12sec. The soil consisted of 2 layers. The lower layer is Albany sand of 80% relative density while the upper layer is only 2m from the surface ground and is Kaketsu sand of 60% relative density. Primary four excitations were scaled from JMA Kobe waves in notification at different amplitudes. The maximum acceleration of each wave is 31gal, 67gal, 304gal, and 458gal, respectively. In the test result, reinforcing steels at the pile head of the RC model yielded when the maximum acceleration was 304gal. After that, mortar of the pile head peeled off and a bending shear failure occurred when the maximum acceleration was 458gal. The peak frequency of rotational spectrum on the foundation did not change in elastic range in the piles. However, the peak frequency fell after the plastic hinge occurred.</description><identifier>ISSN: 0094-243X</identifier><identifier>EISSN: 1551-7616</identifier><identifier>DOI: 10.1063/1.5005646</identifier><identifier>CODEN: APCPCS</identifier><language>eng</language><publisher>Melville: American Institute of Physics</publisher><subject>Acceleration ; Compressive strength ; Density ; Earthquake damage ; Earthquakes ; Monitoring ; Mortars (material) ; Peak frequency ; Plastic properties ; Reinforced concrete ; Reinforcing steels ; Rotational spectra ; Sand ; Shear ; Soil layers ; Steel structures ; Structural damage ; Superstructures ; Underground structures</subject><ispartof>AIP conference proceedings, 2017, Vol.1892 (1)</ispartof><rights>Author(s)</rights><rights>2017 Author(s). Published by AIP Publishing.</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c403t-9650a64921ef4c88c9167a29b9af928d1ffb1f10328b661b5e0ce5f185c721ff3</citedby></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://pubs.aip.org/acp/article-lookup/doi/10.1063/1.5005646$$EHTML$$P50$$Gscitation$$H</linktohtml><link.rule.ids>309,310,314,780,784,789,790,794,4510,23929,23930,25139,27923,27924,76155</link.rule.ids></links><search><contributor>Keong, Choong Kok</contributor><contributor>Bakar, Badorul Hisham Abu</contributor><contributor>Yusoff, Mohd Suffian</contributor><contributor>Halim, Herni</contributor><contributor>Hasan, Mohd Rosli Mohd</contributor><contributor>Aziz, Hamidi Abdul</contributor><contributor>Johari, Megat Azmi Megat</contributor><contributor>Ramli, Muhd Harris</contributor><creatorcontrib>Hayashi, Kazuhiro</creatorcontrib><creatorcontrib>Hachimori, Wataru</creatorcontrib><creatorcontrib>Kaneda, Shogo</creatorcontrib><creatorcontrib>Tamura, Shuji</creatorcontrib><creatorcontrib>Saito, Taiki</creatorcontrib><title>Development of the monitoring technique on the damage of piles using the biggest shaking table “E-defense”</title><title>AIP conference proceedings</title><description>In case of earthquake damage to buildings, the damage to a superstructure is visible, but the damage to a foundation structure, e.g. the underground pile, is difficult to detect. In this study, the authors aim to develop a monitoring technique for pile damage due to earthquakes. The world’s biggest shaking table, E-Defense, was used to reproduce damage to RC pile models embedded in the soil inside a large scale shear box (8m in diameter and 6.5m in height). The diameter of the RC pile model was 154mm. It consisted of mortar (27.2N/mm2 in compressive strength), 6 main reinforcements (6.35mm in diameter) and shear reinforcement hard steel wire (2mm in diameter at intervals of 20mm). The natural period of the superstructure above the pile models is around 0.12sec. The soil consisted of 2 layers. The lower layer is Albany sand of 80% relative density while the upper layer is only 2m from the surface ground and is Kaketsu sand of 60% relative density. Primary four excitations were scaled from JMA Kobe waves in notification at different amplitudes. The maximum acceleration of each wave is 31gal, 67gal, 304gal, and 458gal, respectively. In the test result, reinforcing steels at the pile head of the RC model yielded when the maximum acceleration was 304gal. After that, mortar of the pile head peeled off and a bending shear failure occurred when the maximum acceleration was 458gal. The peak frequency of rotational spectrum on the foundation did not change in elastic range in the piles. However, the peak frequency fell after the plastic hinge occurred.</description><subject>Acceleration</subject><subject>Compressive strength</subject><subject>Density</subject><subject>Earthquake damage</subject><subject>Earthquakes</subject><subject>Monitoring</subject><subject>Mortars (material)</subject><subject>Peak frequency</subject><subject>Plastic properties</subject><subject>Reinforced concrete</subject><subject>Reinforcing steels</subject><subject>Rotational spectra</subject><subject>Sand</subject><subject>Shear</subject><subject>Soil layers</subject><subject>Steel structures</subject><subject>Structural damage</subject><subject>Superstructures</subject><subject>Underground structures</subject><issn>0094-243X</issn><issn>1551-7616</issn><fulltext>true</fulltext><rsrctype>conference_proceeding</rsrctype><creationdate>2017</creationdate><recordtype>conference_proceeding</recordtype><recordid>eNp9kM9Kw0AQhxdRsFYPvkHAm5C6k2Q3yVFq_QMFLwrelk0ym25NdmN2W_DWB9GX65OYtoI3TwPzffxm-BFyCXQClMc3MGGUMp7wIzICxiBMOfBjMqI0T8Ioid9OyZlzS0qjPE2zETF3uMbGdi0aH1gV-AUGrTXa216bOvBYLoz-WGFgzZ5VspU17sxON-iCldtrAyl0XaPzgVvI9_1OFg0G283XLKxQoXG43XyfkxMlG4cXv3NMXu9nL9PHcP788DS9nYdlQmMf5pxRyZM8AlRJmWVlDjyVUV7kUuVRVoFSBSigcZQVnEPBkJbIFGSsTKMBxmNydcjtejt877xY2lVvhpMiAuCUQcrjwbo-WK7UXnptjeh63cr-UwAVuz4FiN8-_5PXtv8TRVep-AfRuXhv</recordid><startdate>20171016</startdate><enddate>20171016</enddate><creator>Hayashi, Kazuhiro</creator><creator>Hachimori, Wataru</creator><creator>Kaneda, Shogo</creator><creator>Tamura, Shuji</creator><creator>Saito, Taiki</creator><general>American Institute of Physics</general><scope>8FD</scope><scope>H8D</scope><scope>L7M</scope></search><sort><creationdate>20171016</creationdate><title>Development of the monitoring technique on the damage of piles using the biggest shaking table “E-defense”</title><author>Hayashi, Kazuhiro ; Hachimori, Wataru ; Kaneda, Shogo ; Tamura, Shuji ; Saito, Taiki</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c403t-9650a64921ef4c88c9167a29b9af928d1ffb1f10328b661b5e0ce5f185c721ff3</frbrgroupid><rsrctype>conference_proceedings</rsrctype><prefilter>conference_proceedings</prefilter><language>eng</language><creationdate>2017</creationdate><topic>Acceleration</topic><topic>Compressive strength</topic><topic>Density</topic><topic>Earthquake damage</topic><topic>Earthquakes</topic><topic>Monitoring</topic><topic>Mortars (material)</topic><topic>Peak frequency</topic><topic>Plastic properties</topic><topic>Reinforced concrete</topic><topic>Reinforcing steels</topic><topic>Rotational spectra</topic><topic>Sand</topic><topic>Shear</topic><topic>Soil layers</topic><topic>Steel structures</topic><topic>Structural damage</topic><topic>Superstructures</topic><topic>Underground structures</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Hayashi, Kazuhiro</creatorcontrib><creatorcontrib>Hachimori, Wataru</creatorcontrib><creatorcontrib>Kaneda, Shogo</creatorcontrib><creatorcontrib>Tamura, Shuji</creatorcontrib><creatorcontrib>Saito, Taiki</creatorcontrib><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hayashi, Kazuhiro</au><au>Hachimori, Wataru</au><au>Kaneda, Shogo</au><au>Tamura, Shuji</au><au>Saito, Taiki</au><au>Keong, Choong Kok</au><au>Bakar, Badorul Hisham Abu</au><au>Yusoff, Mohd Suffian</au><au>Halim, Herni</au><au>Hasan, Mohd Rosli Mohd</au><au>Aziz, Hamidi Abdul</au><au>Johari, Megat Azmi Megat</au><au>Ramli, Muhd Harris</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Development of the monitoring technique on the damage of piles using the biggest shaking table “E-defense”</atitle><btitle>AIP conference proceedings</btitle><date>2017-10-16</date><risdate>2017</risdate><volume>1892</volume><issue>1</issue><issn>0094-243X</issn><eissn>1551-7616</eissn><coden>APCPCS</coden><abstract>In case of earthquake damage to buildings, the damage to a superstructure is visible, but the damage to a foundation structure, e.g. the underground pile, is difficult to detect. In this study, the authors aim to develop a monitoring technique for pile damage due to earthquakes. The world’s biggest shaking table, E-Defense, was used to reproduce damage to RC pile models embedded in the soil inside a large scale shear box (8m in diameter and 6.5m in height). The diameter of the RC pile model was 154mm. It consisted of mortar (27.2N/mm2 in compressive strength), 6 main reinforcements (6.35mm in diameter) and shear reinforcement hard steel wire (2mm in diameter at intervals of 20mm). The natural period of the superstructure above the pile models is around 0.12sec. The soil consisted of 2 layers. The lower layer is Albany sand of 80% relative density while the upper layer is only 2m from the surface ground and is Kaketsu sand of 60% relative density. Primary four excitations were scaled from JMA Kobe waves in notification at different amplitudes. The maximum acceleration of each wave is 31gal, 67gal, 304gal, and 458gal, respectively. In the test result, reinforcing steels at the pile head of the RC model yielded when the maximum acceleration was 304gal. After that, mortar of the pile head peeled off and a bending shear failure occurred when the maximum acceleration was 458gal. The peak frequency of rotational spectrum on the foundation did not change in elastic range in the piles. However, the peak frequency fell after the plastic hinge occurred.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.5005646</doi><tpages>8</tpages></addata></record> |
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| identifier | ISSN: 0094-243X |
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| language | eng |
| recordid | cdi_scitation_primary_10_1063_1_5005646 |
| source | AIP Journals Complete |
| subjects | Acceleration Compressive strength Density Earthquake damage Earthquakes Monitoring Mortars (material) Peak frequency Plastic properties Reinforced concrete Reinforcing steels Rotational spectra Sand Shear Soil layers Steel structures Structural damage Superstructures Underground structures |
| title | Development of the monitoring technique on the damage of piles using the biggest shaking table “E-defense” |
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