Laboratory Experiment of Soil Vertical Displacement Measurement Near an Axially Loaded Pile

Żarkiewicz, Krzysztof

doi:10.1088/1757-899x/603/3/032012

Cited by 4 publications

(2 citation statements)

References 7 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Unfortunately, due to a large number of unknowns and layered soil it is hard to discover all phenomena that occurs during load transferring from the pile to the surrounding soil. Laboratory investigation of static pile load tests, which are presented in [16,17] cannot be directly compared with natural piles due to small scale but this research can provide a lot of important information about piles behavior.…”

Section: Model and Field Test With Additional Instrumentsmentioning

confidence: 99%

“…On the other hand pile base during static axial pile load test create the zone of stress which surrounds also the pile shaft [27]. The dimensions of that zone and directions of soil movement were presented in [17,28]. During the pile load test soil is moved also in an upward direction simultaneously affecting the stress above the pile base level as was presented in [29].…”

Section: Skin Friction and Base Resistance Calculation And Interactionsmentioning

confidence: 99%

See 1 more Smart Citation

The Analysis of Pile Skin and Base Resistances Interaction Based on Static Pile Load Test in Experimental Research

Żarkiewicz

2023

Architecture, Civil Engineering, Environment

View full text Add to dashboard Cite

Static pile load tests in laboratory conditions were carried out to study the mechanism of the pile skin and pile base resistance mobilization with settlement and their interactions. The mechanism of the skin resistance at the base is important in the correct interpretation of the pile capacity. Especially in the case of piles shallowly embedded in the bearing layer. In the studies described in this article, high-precision piezoelectric elastic stress maps were used. The tests were carried out on piles with a diameter of 2.5–2.8 cm, and length of 40 cm. Static pile load tests were carried out to measure resistance at the pile base, settlement and change of stress in the soil at the level of the pile base or beneath the pile base were measured. The analysis of stress in soil allowed to investigate the interaction between the resistances of the pile base and skin. The state of stress in the soil close to the pile base, both beneath and above the pile base level was heavily influenced by the simultaneous mobilization of skin and base resistance.

show abstract

Section: Model and Field Test With Additional Instrumentsmentioning

confidence: 99%

Section: Skin Friction and Base Resistance Calculation And Interactionsmentioning

confidence: 99%

The Analysis of Pile Skin and Base Resistances Interaction Based on Static Pile Load Test in Experimental Research

Żarkiewicz

2023

Architecture, Civil Engineering, Environment

View full text Add to dashboard Cite

show abstract

Improvement of an Undisturbed Peat Soil with Jet Grout Columns: Physical and Numerical Modeling

et al. 2023

View full text Add to dashboard Cite

Laboratory Modelling and Analysis of Displacement Pile in Different Geometries on Alluvial Soils

DINC,

DEVELİOGLU,

PULAT

2023

Bitlis Eren Üniversitesi Fen Bilimleri Dergisi

View full text Add to dashboard Cite

Alluvial soils are weak soils require precautions, which have disadvantageous engineering characteristics such as low shear strength and bearing capacity, high void ratio and settlement potential. Different foundation systems are preferred for structures built on these soils to transfer the load effects safely. Pile foundations as a deep foundation is classified depending on various parameters such as; material property, application method, load-bearing method. In this study, cylindrical and square concrete piles with different cross-sections and lateral areas placed in the alluvial soil. The natural alluvial soil taken from İzmir province, Balatcik location was placed in displacement-controlled pile model unit with a unit weight of ≈ 17 kN/m3. The manufactured concrete piles were driven into soil with Standard Proctor hammer. Tensile effects were applied at different time intervals to examine long-term and short-term behavior. As result of experiments, load-displacement (p-y) and displacement-time (y-t) graphs were drawn. When the displacement piles were examined under long-term tension, it was seen that the cylindrical piles displaced most. Square piles with same cross-sectional area with cylindrical piles made less displacement. All studies were modeled 1:1 as numerical and compared with experimental results. Studies showed that the experimental and numerical results for pile behavior were compatible.

show abstract

Laboratory Experiment of Soil Vertical Displacement Measurement Near an Axially Loaded Pile

Cited by 4 publications

References 7 publications

The Analysis of Pile Skin and Base Resistances Interaction Based on Static Pile Load Test in Experimental Research

The Analysis of Pile Skin and Base Resistances Interaction Based on Static Pile Load Test in Experimental Research

Improvement of an Undisturbed Peat Soil with Jet Grout Columns: Physical and Numerical Modeling

Laboratory Modelling and Analysis of Displacement Pile in Different Geometries on Alluvial Soils

Contact Info

Product

Resources

About