Exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towers
Single piles are normally used to support the transmission tower in mountain areas. Uplift capacity of piles is a key factor in the engineering design to increase the stability of transmission tower foundation. This study numerically investigated the uplift capacity of single straight and belled pil...
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Format: | Article |
Language: | English |
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Frontiers Media S.A.
2023-03-01
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Series: | Frontiers in Materials |
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Online Access: | https://www.frontiersin.org/articles/10.3389/fmats.2023.1171601/full |
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author | Meihua Bian Songlin Qin Jianing Peng Junhua Li Xingsen Zhang |
author_facet | Meihua Bian Songlin Qin Jianing Peng Junhua Li Xingsen Zhang |
author_sort | Meihua Bian |
collection | DOAJ |
description | Single piles are normally used to support the transmission tower in mountain areas. Uplift capacity of piles is a key factor in the engineering design to increase the stability of transmission tower foundation. This study numerically investigated the uplift capacity of single straight and belled piles in the sloping ground which consisted of a clay layer underlain by medium weathered sandstone. A non-linear 3D finite element model was proposed to describe the uplift behavior of single piles and was calibrated against a field test on single piles subjected to uplift loading. A parametric study was conducted to investigate the effect of the slope angle (θ) on the uplift behavior of single piles. The uplift capacity decreased as θ increased for either straight piles or belled piles. Moreover, the range of the equivalent plastic strain was greatest for single piles in the level ground. For piles in the sloping ground, the range of equivalent plastic strain was wider at the position of the downstream slope than that at the position of the upstream slope when the uplift load of single piles reached the maximum. As the expansion angle increased to 30° and 45°, the uplift capacity of belled piles (Ru) was increased by 100% and 180% with respect to that of straight piles, respectively. The increase percentage in Ru was independent of θ. A practical method was proposed to quantify the slope effect on Ru. |
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id | doaj.art-ae63c2fb34e84d118e66bd4d207e94f1 |
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issn | 2296-8016 |
language | English |
last_indexed | 2024-04-09T23:36:30Z |
publishDate | 2023-03-01 |
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series | Frontiers in Materials |
spelling | doaj.art-ae63c2fb34e84d118e66bd4d207e94f12023-03-20T05:52:38ZengFrontiers Media S.A.Frontiers in Materials2296-80162023-03-011010.3389/fmats.2023.11716011171601Exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towersMeihua BianSonglin QinJianing PengJunhua LiXingsen ZhangSingle piles are normally used to support the transmission tower in mountain areas. Uplift capacity of piles is a key factor in the engineering design to increase the stability of transmission tower foundation. This study numerically investigated the uplift capacity of single straight and belled piles in the sloping ground which consisted of a clay layer underlain by medium weathered sandstone. A non-linear 3D finite element model was proposed to describe the uplift behavior of single piles and was calibrated against a field test on single piles subjected to uplift loading. A parametric study was conducted to investigate the effect of the slope angle (θ) on the uplift behavior of single piles. The uplift capacity decreased as θ increased for either straight piles or belled piles. Moreover, the range of the equivalent plastic strain was greatest for single piles in the level ground. For piles in the sloping ground, the range of equivalent plastic strain was wider at the position of the downstream slope than that at the position of the upstream slope when the uplift load of single piles reached the maximum. As the expansion angle increased to 30° and 45°, the uplift capacity of belled piles (Ru) was increased by 100% and 180% with respect to that of straight piles, respectively. The increase percentage in Ru was independent of θ. A practical method was proposed to quantify the slope effect on Ru.https://www.frontiersin.org/articles/10.3389/fmats.2023.1171601/fullslopestraight pilebelled pileuplift capacityequivalent plastic strain |
spellingShingle | Meihua Bian Songlin Qin Jianing Peng Junhua Li Xingsen Zhang Exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towers Frontiers in Materials slope straight pile belled pile uplift capacity equivalent plastic strain |
title | Exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towers |
title_full | Exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towers |
title_fullStr | Exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towers |
title_full_unstemmed | Exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towers |
title_short | Exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towers |
title_sort | exploration of the slope effect on the uplift capacity of single straight and belled piles supporting transmission towers |
topic | slope straight pile belled pile uplift capacity equivalent plastic strain |
url | https://www.frontiersin.org/articles/10.3389/fmats.2023.1171601/full |
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