Settlement and Bearing Capacity of Roadbed Subjected to Tilting-train Loading in Various Ground Conditions

The 12 January 2010 Haiti earthquake (Mw 7.0) caused extensive damage to the Port-au-Prince region, including severe liquefaction failures along the Gulf of Gonâve coastline, along rivers north of Port-au-Prince draining into the Gulf, and a liquefaction-induced structural/bearing capacity failure of a three-story concrete hotel along the southern coast of the Gulf. During two reconnaissance missions, the authors documented ground conditions and performance at eight sites that liquefied and two sites that did not liquefy. Geotechnical characterization included surface mapping, dynamic cone penetration tests, hand auger borings, and laboratory index tests. The authors estimated median peak ground accelerations (PGAs) of approximately 0.17g to 0.48g at these sites using the Next Generation Attenuation (NGA) relations summarized by Power et. al. (2008) . These case histories are documented here so that they can be used to augment databases of level-ground/near level-ground liquefaction, lateral spreading, liquefaction flow failure, and liquefaction-induced bearing capacity failure.

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Bearing Capacity of T-Cross Section Piles in Sand

Civil and Environmental Engineering Reports ◽

10.1515/ceer-2017-0041 ◽

2017 ◽

Vol 26 (3) ◽

pp. 133-144

Author(s):

Oleg Malyshev

Keyword(s):

Bearing Capacity ◽

Cross Section ◽

Static Load ◽

Vertical Load ◽

Ground Conditions

Abstract This paper describes a series of pile tests in sand. T-cross and square cross section piles were jacking by static vertical load with a vibration. Special tests were carried out to examine the influence of T-cross section pile form on it bearing capacity, and the results of comparison bearing capacity on one cub meter of T-cross and square cross section jacking piles in the same ground conditions are described. The jacking vertical static load, sizes of displacements and compaction zones of a ground around a shaft of the experienced piles were investigated.

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Replacing the Piled Foundations of the Houphouët-Boigny Bridge in Abidjan Cote d’Ivoire

10.4043/31285-ms ◽

2021 ◽

Author(s):

Ashkan Ameri ◽

Adrian Mercer

Keyword(s):

Bearing Capacity ◽

Cote D'ivoire ◽

Carbon Emissions ◽

Ground Movement ◽

Box Girders ◽

Ground Conditions ◽

Innovative Thinking ◽

Mind Set ◽

The Stability ◽

Piled Foundations

Abstract Due to historical ground movement, increased traffic levels, and general degradation, this important road and rail bridge which provides an essential link between the interior of the country and the Port of Abidjan, required significant repair and reinforcement. This included strengthening the pre-stressed concrete box girders and replacement of the piled foundations. Replacement piles had to be adjacent to, and no longer than, the existing piles to not compromise the stability of the operational bridge during the works. The underlying geology, however, meant that the pile loads had to be predominantly transferred into the ground through end bearing. Rather than installing a greater number of piles or larger diameter piles, innovative thinking changed the usual mind-set of designing the piles to the prevailing ground conditions, to designing the ground conditions to suit the piles. Jet grouted columns were installed beneath the toes of the new piles to increase the bearing capacity of the ground. This significantly contributed to the sustainability of the project and reduced carbon emissions through saving concrete, steel, plus transportation and disposal of spoil.

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End bearing capacity comparison of screw pile with straight pipe pile under similar ground conditions

Acta Geotechnica ◽

10.1007/s11440-016-0482-4 ◽

2016 ◽

Vol 12 (2) ◽

pp. 415-428 ◽

Cited By ~ 8

Author(s):

Adnan Anwar Malik ◽

Jiro Kuwano ◽

Shinya Tachibana ◽

Tadashi Maejima

Keyword(s):

Bearing Capacity ◽

Straight Pipe ◽

Pipe Pile ◽

End Bearing Capacity ◽

Screw Pile ◽

Ground Conditions

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Roadbed behavior subjected to tilting-train loading at rail joint and continuous welded rail

Journal of Central South University ◽

10.1007/s11771-014-2263-2 ◽

2014 ◽

Vol 21 (7) ◽

pp. 2962-2969 ◽

Cited By ~ 1

Author(s):

Sang-Soo Jeon

Keyword(s):

Continuous Welded Rail ◽

Tilting Train ◽

Train Loading

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Investigation of Liquefaction and Lateral Spreading in Riverside Soils

Academic Perspective Procedia ◽

10.33793/acperpro.02.03.155 ◽

2019 ◽

Vol 2 (3) ◽

pp. 1396-1409

Author(s):

Sedat Sert ◽

Ertan Bol ◽

Aşkın Özocak

Keyword(s):

Bearing Capacity ◽

Soil Profile ◽

Lateral Spreading ◽

Liquefaction Potential ◽

Geotechnical Assessment ◽

Ground Conditions ◽

Sakarya River

It is planned to construct some buildings within the scope of recreation project (Sakarya Park-2) which is planned to be built on the banks of Sakarya River in Erenler District of Sakarya Province. In this paper, the geotechnical assessment of the liquefaction and lateral spreading of the ground conditions is carried out for the structures planned to be built and the fortifications planned to be built on the riverside. In this study, plankote, current and application maps of the area were utilized and considering the seismicity of the region; soil profile was evaluated and possible problems were questioned by investigating foundation bearing capacity, settlements, liquefaction potential and lateral spreading risk.

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STUDI ANALISIS DAYA DUKUNG PONDASI TIANG PADA PEMBANGUNAN GEDUNG LP3M UNIVERSITAS KADIRI

Jurnal CIVILA ◽

10.30736/cvl.v3i2.259 ◽

2018 ◽

Vol 3 (2) ◽

pp. 166

Author(s):

Agata Iwan Candra ◽

Anasrudin Yusuf ◽

Amanda Rizky F

Keyword(s):

Bearing Capacity ◽

Carrying Capacity ◽

Ground Surface ◽

Building Construction ◽

Land Market ◽

Live Load ◽

Dead Load ◽

Bored Pile ◽

Ground Conditions ◽

Hard Soil

The foundation is a part of the building construction which is responsible for accepting and eradicating all the load from the building either live load or dead load from a land market building which is strong enough to support it . To determine the soil bearing capacity soil investigation needs to be done so that the building that are above the ground is not decreased (settlelment) is large enough, then the foundation must reach solid ground layer and the bearing capacity of the soil (bearing capacity) are permitted. Strous foundation and bored pile used if the ground conditions in the bottom of the building does not have sufficient load bearing capacity to carry the load or if the hard soil that has a strong carrying capacity is located very deep from the ground surface. The purpose of this study is to calculate the carrying capacity of Strous Meyerhoff and Begemann on sondir results.

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USING OF DYNAMIC AND STATIC LOAD PILING TESTS IN ASTANA, KAZAKHSTAN

ACADEMIC JOURNAL Series Industrial Machine Building Civil Engineering ◽

10.26906/znp.2017.49.819 ◽

2017 ◽

Vol 2 (49) ◽

pp. 32-37

Author(s):

A. Z. Zhussupbekov ◽

Z. A. Shakhmov ◽

G. T. Tleulenova ◽

S. B. Akhazhanov

Keyword(s):

Bearing Capacity ◽

Static Load ◽

Precast Concrete ◽

Load Test ◽

Soil Conditions ◽

Construction Sites ◽

Concrete Piles ◽

Test Methodology ◽

Ground Conditions ◽

Load Tests

In this paper the analysis results of precast piles different tests are presented. Extreme soil conditions of Astana (Kazakhstan) involve realizing the work precast piles in various soil ground and interaction soil ground and piles. There were carried out dynamic and static load tests of piles in extreme soil ground conditions in Astana. Based on data results of pile foundations the piles bearing capacity was determined. According to the results of DLT with PDA of driving piles (30.0 cm) the bearing capacity of the piles is 911 kN. The bearing capacity of the driven piles according to the results of SLT amounted to be 878 kN. Soils physic-mechanical properties in extreme conditions of Astana along with graphs of dependence are between settlement and load. The precise analysis of climatic and geological factors of the construction sites is shown. Investigations method for precast concrete piles testing is presented. Dynamic load test methodology in Astana for concrete piles testing is shown. These investigations are important for of Pile-Soil interaction on problematical soil ground.

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