A Pluvial Deposition Method to Reconstitute Well-Graded Sand Specimens

Pincus, HJ; Fretti, Carmelo; Presti, Diego Carlo Lo; Pedroni, S.

doi:10.1520/gtj10330j

Cited by 54 publications

(11 citation statements)

References 3 publications

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“…The use of this method for obtaining the required relative density has been reported by many researchers [9][10][11]. By using the raining technique, any density within the maximum/minimum density range can be achieved by controlling the intensity and the height of fall of the sand [12][13][14].…”

Section: Test Set Upmentioning

confidence: 99%

Response of Skirted Foundations Resting on Dry Medium Dense Sand

Haider

Mekkiyah

2018

CivileJournal

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Experimental model tests were carried out to study the response of skirted foundation resting on dry sand. The experiments were performed in a large soil container (1000 1000 mm in cross section and 800 mm in height). Skirts with three different lengths (L) varied from 0.5D to 1.5D was attached to the edge of shallow circular foundations having three different diameters (D=60, 90 and 120 mm). Different parameters have been studied; these parameters involve skirt length, foundation size and skirt conditions. Skirts with open end and closed end were used. The relative density was kept constant and equals to 60%. The case of foundation without skirt (L=0) was initially tested and set as a reference for comparison purpose. From the results of experimental tests, it was found that the skirt modifies the load-settlement behaviour, increasing the load carrying capacity and reducing the foundation settlement. The results also indicate that load carrying capacity of skirted foundation increases with increase skirt length as well as foundation size. The results show that using skirt with closed end brought a considerable increase in load carrying capacity than that of open end.

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Section: Test Set Upmentioning

confidence: 99%

Response of Skirted Foundations Resting on Dry Medium Dense Sand

Haider

Mekkiyah

2018

CivileJournal

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“…There are three methods for preparation of reconstituted sand specimens, tamping, vibration, and pluviation (Lo Presti et al 1992;ASTM 2006). Among these methods, pluviation has been widely used due to its ability to achieve a wide range of relative densities for sand bed (Rad and Tumay 1987;Fretti et al 1995;Choi et al 2010; Dave and Dasaka 2012;Gade and Dasaka 2015). Additionally, this method is mainly advantageous when it is needed to reconstitute large specimens for model tests or calibration chamber tests within a short time (Fretti et al 1995).…”

Section: Introductionmentioning

confidence: 99%

“…Among these methods, pluviation has been widely used due to its ability to achieve a wide range of relative densities for sand bed (Rad and Tumay 1987;Fretti et al 1995;Choi et al 2010; Dave and Dasaka 2012;Gade and Dasaka 2015). Additionally, this method is mainly advantageous when it is needed to reconstitute large specimens for model tests or calibration chamber tests within a short time (Fretti et al 1995). Kuerbis and Vaid (1988) reported that the method used to prepare a reconstituted sand bed should be able to produce a very loose to very dense bed, a uniform void ratio throughout the specimen, no segregation of soil particles (regardless of particle size or fines content), and replicable natural soil deposits.…”

Section: Introductionmentioning

confidence: 99%

“…Air-pluviation may be further divided into three groups depending on the type of opening under the sand storage or hopper. The first type is a single nozzle in which the soil is poured through the nozzle moving in a regular pattern (Fretti et al 1995). The second type is a curtain rainer in which the sand from the hopper is poured through a narrow slot in a thin sand curtain (Butterfield and Andrawes 1970;Gemperline and Ko 1984;Garnier and Cottineau 1988;Stuit 1995).…”

Section: Introductionmentioning

confidence: 99%

“…The relative density (RD) of sand reconstituted by air-pluviation depends on the height of fall (HF), the deposition intensity (DI), uniformity of raining sand, the porosity of the diffuser sieve, the opening width of the curtain in curtain technique, particle characteristics, and other parameters (Kolbuszewski 1948;Kolbuszewski and Jones 1961;Butterfield and Andrawes 1970;Rad and Tumay 1987;Vaid and Negussey 1988;Lo Presti et al 1992, 1993Fretti et al 1995;Lagioia et al 2006;Choi et al 2010;Dave and Dasaka 2012;Gade and Dasaka 2015).…”

Section: Introductionmentioning

confidence: 99%

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Comparison between Two Different Pluviation Setups of Sand Specimens

Tabaroei

Abrishami

Hosseininia

2017

J. Mater. Civ. Eng.

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Sand pluviation is a method used to prepare a model sand specimen to carry out some particular laboratory tests such as static and dynamic tests on footings, retaining walls, piles, as well as calibration of static and dynamic penetrometers. Preparation of uniform reconstituted sand specimens of required density is a prerequisite for obtaining reliable results. In this paper, two rainer systems, which are capable to prepare homogeneous sand specimens, are introduced. The first is a rainer system with a perforated plate and the second is a portable curtain rainer system. The portable curtain rainer system essentially consisting of a sand storage, flexible hose, a hopper, rigid tubes, and curtain with different opening widths. This study aims to reach a better understanding of the effects of deposition intensity (DI) and height of fall (HF) on the relative density (RD) of reconstituted sand specimens. The uniformity of the sand bed is verified by measuring the relative densities of 20 samples at different locations of the tank. By using a portable curtain rainer system, large uniform sand specimens with a wide range of RD ¼ 23-96% can be achieved. The results demonstrate that at a lower value of HF, the variation of RD is significant, while it has an insignificant effect on RD for values of HF ≥ 600 mm. Furthermore, in order to achieve a dense to very dense sand bed, the DI should be controlled. It was also observed that both systems significantly improve the horizontal and vertical homogeneities of the sand specimens. With an increase in the RD of reconstituted sand specimens, higher repeatability of uniform pluviation was achieved.

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Effects of Soil Deposition on the Initial Stress State in Model Tests: Experimental Results and FE Simulation

Vogelsang

Zachert

Huber

et al. 2015

Holistic Simulation of Geotechnical Installation Processes

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The knowledge of the initial soil state (stress and density distribution) in geotechnical model tests is indispensable, particularly with regard to FE back calculation of experimental results. Usually, so-called K 0 -conditions are assumed, which for many cases do not describe the soil stress state before the experiment begins adequately. Using an exemplary test device we present and discuss different measurement techniques for the interpretation of soil deposition procedures and the evaluation of the initial state. By means of stress and bearing force measurements, the stress state is captured representatively. The soil deformations during the filling of the test device are evaluated with Digital Image Correlation (DIC) methods and the initial density distribution is examined by cone penetration tests (CPT). Afterwards, a simple FE simulation method is presented, which models the soil deposition procedure by a weight increase layer-by-layer. It is shown that the method is suitable to provide a realistic initial soil state. The methods presented can be easily transferred to other geotechnical test devices and can in many cases ensure a better comparability of tests with their simulations.

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A Pluvial Deposition Method to Reconstitute Well-Graded Sand Specimens

Cited by 54 publications

References 3 publications

Response of Skirted Foundations Resting on Dry Medium Dense Sand

Response of Skirted Foundations Resting on Dry Medium Dense Sand

Comparison between Two Different Pluviation Setups of Sand Specimens

Effects of Soil Deposition on the Initial Stress State in Model Tests: Experimental Results and FE Simulation

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