A full-section asphalt concrete waterproof sealing structure for the high-speed railway subgrade
Purpose – This study aims to investigate the service performances of a new full-section asphalt concrete waterproof sealing structure (FSACWSS) for the high-speed railway subgrade through on-site tracking, monitoring and post-construction investigation. Design/methodology/approach – Based on the wor...
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| Format: | Article |
| Language: | English |
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Emerald Publishing
2022-12-01
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| Series: | Railway Sciences |
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| Online Access: | https://www.emerald.com/insight/content/doi/10.1108/RS-04-2022-0013/full/pdf |
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| author | Qinghong Fu |
| author_facet | Qinghong Fu |
| author_sort | Qinghong Fu |
| collection | DOAJ |
| description | Purpose – This study aims to investigate the service performances of a new full-section asphalt concrete waterproof sealing structure (FSACWSS) for the high-speed railway subgrade through on-site tracking, monitoring and post-construction investigation. Design/methodology/approach – Based on the working state of the waterproof sealing structure, the main functional characteristics were analyzed, and a kind of roller-compacted high elastic modulus asphalt concrete (HEMAC) was designed and evaluated by several groups of laboratory tests. It is applied to an engineering test section, and the long-term performance monitoring and subgrade dynamic performance testing system were installed to track and monitor working performances of the test section and the adjacent contrast section with fiber-reinforced concrete. Findings – Results show that both the dynamic performance of the track structure and the subgrade in the test section meet the requirements of the specification limits. The water content in the subgrade of the test section is maintained at 8–18%, which is less affected by the weather. However, the water content in the subgrade bed of the contrast section is 10–35%, which fluctuates significantly with the weather. The heat absorption effect of asphalt concrete in the test section makes the temperature of the subgrade at the shoulder larger than that in the contrastive section. The monitoring value of the subgrade vertical deformation in the test section is slightly larger than that in the contrastive section, but all of them meet the limit requirements. The asphalt concrete in the test section is in good contact with the base, and there are no diseases such as looseness or spalling. Only a number of cracks are found at the joints of the base plates. However, there are more longitudinal and lateral cracks in the contrastive section, which seriously affects the waterproof and sealing effects. Besides, the asphalt concrete is easier to repair, featuring good maintainability. Originality/value – This research can provide a basis for popularization and application of the asphalt concrete waterproof sealing structure in high-speed railways. |
| format | Article |
| id | doaj-art-7ffd3aa015454513b8182b7dfd636bf8 |
| institution | OA Journals |
| issn | 2755-0907 2755-0915 |
| language | English |
| publishDate | 2022-12-01 |
| publisher | Emerald Publishing |
| record_format | Article |
| series | Railway Sciences |
| spelling | doaj-art-7ffd3aa015454513b8182b7dfd636bf82025-08-20T02:10:32ZengEmerald PublishingRailway Sciences2755-09072755-09152022-12-011219320910.1108/RS-04-2022-0013A full-section asphalt concrete waterproof sealing structure for the high-speed railway subgradeQinghong Fu0School of Engineering, Zhejiang Normal University, Jinhua, ChinaPurpose – This study aims to investigate the service performances of a new full-section asphalt concrete waterproof sealing structure (FSACWSS) for the high-speed railway subgrade through on-site tracking, monitoring and post-construction investigation. Design/methodology/approach – Based on the working state of the waterproof sealing structure, the main functional characteristics were analyzed, and a kind of roller-compacted high elastic modulus asphalt concrete (HEMAC) was designed and evaluated by several groups of laboratory tests. It is applied to an engineering test section, and the long-term performance monitoring and subgrade dynamic performance testing system were installed to track and monitor working performances of the test section and the adjacent contrast section with fiber-reinforced concrete. Findings – Results show that both the dynamic performance of the track structure and the subgrade in the test section meet the requirements of the specification limits. The water content in the subgrade of the test section is maintained at 8–18%, which is less affected by the weather. However, the water content in the subgrade bed of the contrast section is 10–35%, which fluctuates significantly with the weather. The heat absorption effect of asphalt concrete in the test section makes the temperature of the subgrade at the shoulder larger than that in the contrastive section. The monitoring value of the subgrade vertical deformation in the test section is slightly larger than that in the contrastive section, but all of them meet the limit requirements. The asphalt concrete in the test section is in good contact with the base, and there are no diseases such as looseness or spalling. Only a number of cracks are found at the joints of the base plates. However, there are more longitudinal and lateral cracks in the contrastive section, which seriously affects the waterproof and sealing effects. Besides, the asphalt concrete is easier to repair, featuring good maintainability. Originality/value – This research can provide a basis for popularization and application of the asphalt concrete waterproof sealing structure in high-speed railways.https://www.emerald.com/insight/content/doi/10.1108/RS-04-2022-0013/full/pdfHigh-speed railwaySubgradeAsphalt concreteWaterproof sealing structureService performance |
| spellingShingle | Qinghong Fu A full-section asphalt concrete waterproof sealing structure for the high-speed railway subgrade Railway Sciences High-speed railway Subgrade Asphalt concrete Waterproof sealing structure Service performance |
| title | A full-section asphalt concrete waterproof sealing structure for the high-speed railway subgrade |
| title_full | A full-section asphalt concrete waterproof sealing structure for the high-speed railway subgrade |
| title_fullStr | A full-section asphalt concrete waterproof sealing structure for the high-speed railway subgrade |
| title_full_unstemmed | A full-section asphalt concrete waterproof sealing structure for the high-speed railway subgrade |
| title_short | A full-section asphalt concrete waterproof sealing structure for the high-speed railway subgrade |
| title_sort | full section asphalt concrete waterproof sealing structure for the high speed railway subgrade |
| topic | High-speed railway Subgrade Asphalt concrete Waterproof sealing structure Service performance |
| url | https://www.emerald.com/insight/content/doi/10.1108/RS-04-2022-0013/full/pdf |
| work_keys_str_mv | AT qinghongfu afullsectionasphaltconcretewaterproofsealingstructureforthehighspeedrailwaysubgrade AT qinghongfu fullsectionasphaltconcretewaterproofsealingstructureforthehighspeedrailwaysubgrade |