Static Survey as Geological Engineering Method Verification of DSM Column Formation

The state-of-the-art methods for verifying the correctness of ground improvement performed using the DSM (Deep Soil Mixing) technology are largely focused on the selection of adequate factors impacting the achievement of a correct compressive strength fc [MPa] of the column core, which ensures the transfer of stress from the designed structures to the subsoil. In view of the operation of each of the columns, it is equally significant to ensure that their bases are located in load-bearing soil at the entire area of the improvement, without the need to perform many costly subsoil surveys. Based on the complementary soil investigation results and parameters obtained during deep soil mixing from an automatic logger installed on the drilling machine, a method of comparing the rotary drive pressure (working pressure) PKDK [bar] and the cone resistance qc [MPa] of the CPTU static probe (Cone Penetration Test Unit with Pore Pressure Measurement) was developed along with the method to interpret the results in the context of the correctness of the ground improvement on the construction site analyzed in this paper.

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Design and construction of a pressure stabilizing device of cement slurry used in Deep Soil Mixing Technology

Mechanik ◽

10.17814/mechanik.2018.12.209 ◽

2018 ◽

Vol 91 (12) ◽

pp. 1157-1159

Author(s):

Łukasz Nowakowski ◽

Wojciech Depczyński

Keyword(s):

Cement Slurry ◽

Deep Soil ◽

Working Pressure ◽

Soil Mixing ◽

Deep Soil Mixing ◽

Design And Construction

The article describes research carried out for design and construction of devices stabilizing the working pressure of cement slurry, with use of Deep Soil Mixing (DSM).

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The simulation tests of the flow in the device stabilizing the working pressure of the cement slurry

EPJ Web of Conferences ◽

10.1051/epjconf/201921302061 ◽

2019 ◽

Vol 213 ◽

pp. 02061

Author(s):

Lukasz Nowakowski ◽

Wojciech Depczyński ◽

Slawomir Blasiak

Keyword(s):

Flow Simulation ◽

Numerical Calculations ◽

Slurry Flow ◽

Cement Slurry ◽

Deep Soil ◽

Working Pressure ◽

Soil Mixing ◽

Deep Soil Mixing ◽

Design And Construction

The article describes research carried out for design and construction of devices stabilizing the working pressure of cement slurry, with use of Deep Soil Mixing technology. The paper presents also the results of numerical calculations showing the flow in the device stabilizing the working pressure of the cement slurry. Flow simulation tests were carried out in the ANSYS program.

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Selection of Optimized Binders for Dechlorination of Trichloroethylene-Contaminated Sites by Jet Grouting and Deep Soil Mixing

Journal of Environmental Engineering ◽

10.1061/(asce)ee.1943-7870.0001926 ◽

2021 ◽

Vol 147 (11) ◽

pp. 04021052

Author(s):

Peter Freitag ◽

Holger Maurer ◽

Thomas G. Reichenauer

Keyword(s):

Contaminated Sites ◽

Deep Soil ◽

Soil Mixing ◽

Jet Grouting ◽

Deep Soil Mixing ◽

Selection Of

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Settlement Reduction of an Existing Road Earthworks Using Columns Obtained by Deep Soil Mixing Method

Advanced Engineering Forum ◽

10.4028/www.scientific.net/aef.21.358 ◽

2017 ◽

Vol 21 ◽

pp. 358-365

Author(s):

Andreea Cristina Bitir ◽

Claudiu Constantin Popa ◽

Vasile Muşat ◽

Nicolae Boţu

Keyword(s):

Ground Improvement ◽

Optimal Solution ◽

Natural Soil ◽

Cement Slurry ◽

Deep Soil ◽

Stabilizing Agents ◽

The Road ◽

Soil Mixing ◽

Finite Element Software ◽

Deep Soil Mixing

Deep soil mixing methods have been applied at international level for over 40 years on numerous ground improvement projects aimed to enhance the geotechnical performances. The chemical reactions and physical processes which take place after mixing the natural soil with different stabilizing agents lead to an increase in bearing capacity of the ground foundation for new or existing buildings, settlement reduction and/or stability for road and railway embankments, stability and/or seepage control for deep excavations. This paper presents the geotechnical design of columns obtained by mixing the soil with cement slurry in order to stabilize the manifesting settlements of the earth works of an existing road. Considering the geotechnical conditions of the analyzed site as input data, in this paper various dimensions and geometric configuration of the columns are evaluated, with specific purpose to determine an optimal solution that meets the technical performances of the project. The analysis was performed by numerical modeling using the finite element software Plaxis 2D, aiming to evaluate the strain state of both the treated and untreated soil. Although the stabilised elements are usually installed prior to the construction of the road structure, this article highlights the effectiveness of their application even in cases where the road structure already exists.

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