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JOURNAL METRICS. Citre 2019: 0.40 ℹ Citre: Citre is the number of citations received by a journal in one year to documents published in the three previous years, divided by the number of documents indexed in Scopus published in those same three years.
Aug 01, 2013· S. Horpibulsuk, R. Rachan, A. SuddeepongAssessment of strength development in blended cement admixed Bangkok clay Construction and Building Materials, 25 (4) (2011), pp. 1521-1531 Google Scholar
Oct 04, 2012· Assessment of strength development in cement-admixed artificial organic soil with GX07 Assessment of strength development in cement-admixed artificial organic soil with GX07 Li, Xue-gang; Xu, Ri-qing; Rong, Xue-ning 2012-10-04 00:00:00 To explore the stabilization effect of stabilizing agent GX07 on treating organic soil and the influence of organic matter on the strength development .
Once 12.6% GX07 is added into the mix, the strength of stabilized soil is 4.93 times compared with that of cement-only soil. GX07 can obviously improve the strength of cemented-soil and has a good economic applicability. A strength model is proposed to predict strength development. This is a preview of subscription content, log in to check access.
The strength development for the FA blended cement admixed saline clay is shown in Fig. 6, for 53% water, 20% cement and 28 days of curing. Both the strength and unit weight increase with fly ash content and being maximum at a = 25%. They decrease gradually with the ash content when a .
The relationship among strength, clay–water/cement ratio, and curing time for the blended cement admixed Bangkok clay is finally developed and verified. It is useful to assess the strength at any curing time wherein water content, cement content, and ash content vary over a wide range by using the test result of a single laboratory trial.
Dec 25, 2019· High rainfall is observed in a tropical climatic country like Thailand that results in higher chances of natural calamities like flood. High plastic clay known as Bangkok clay is present in Thailand. The clay is famous for displaying variability in its geotechnical properties under dry and wet conditions. Therefore, such clay must be treated with some other materials for the stability of roads ...
8) Horpibulsuk, S., and Sudeepong, A. (2010), "Analysis of strength development in blended cement admixed clay", Proceedings of the International Conference on Geotechnical Challenges in Megacities, June 7-10, 2010, Moscow.
curing period were the parameters influencing the strength development in cement stabilized soil. Miura et al, made an assessment of the strength development in cement admixed high water content clay with Abram's law as the basis [4]. Water content and cement content were the parameters found as the strength influencing factors in their study.
FIELD: building. SUBSTANCE: invention can be used for the manufacture of concrete products for civil and industrial construction, as well as in the construction of special purpose facilities. Method of producing concrete articles involves moulding of article following with article impregnating with subsequent hardening, the impregnation is carried out during 72 hours at 20-30°C in a solution ...
Assessment of strength development in cement-admixed high water content clays with Abrams' law as a basis. ... and curing time for the blended cement admixed Bangkok clay is .
This paper investigates the utilization of brown clay and cement in order to stabilize soft clay. Brown clay mixed with a suitable amount of cement paste is capable to impart filler and pozzolanic effect. Therefore, the mechanical behavior of the soil would be improved. Treatment of fine grained soils with cement is not novel. While stabilization of fine grained soil with brown clay has not ...
In addition, approximately forty small-scale laboratory tests were carried out on dry clay, dry CLM column and lime mortar specimens to evaluate the unconfined compressive strength (UCS). According to results, UCS of CLM column under small-scale condition was higher than that of the large-scale.
The strength of the cement-stabilized soil can be improved by the use of seawater. Compressive strength test results show that the strength of cement-stabilized soil mixed with seawater is 50% greater than that mixed with freshwater at the 90th day. However, the application is limited because the expansion of the cement-stabilized soil mixed with seawater increases significantly.
HORPIBULSUK S, RACHAN R, SUDDEEPONG A. Assessment of strength development in blended cement admixed Bangkok clay [J]. Construction and Building Materials, 2011, 25: .
This study presents the experimental results on the use of cement in modification and stabilization of medium plastic clays. Samples of lean clay were mixed with Portland cement in percentages of 5 and 10 % by dry weight of the soils that had water contents of 40 and 60 %. The curing time of the samples varied between 7 and 28 days. The effects of cement addition on the workability, unconfined ...
Horpibulsuk S., Miura N., Nagaraj T.S.: Assessment of strength development in cement-admixed high water content clays with Abrams' law as a basis. .
The slurry soft Bangkok clay with liquidity index of 1.0, 1.3 and 1.5 was stabilized with ordinary Portland cement and CSAB cement in the range of 5 - 20%. Based on the laboratory study, mechanism of rising unconfined compressive strength results which soft clay stabilized with CSAB cement could observe from Scanning Electron Microscope images.
Assessment of strength development in blended cement admixed Bangkok clay S Horpibulsuk, R Rachan, A Suddeepong Construction and Building Materials 25 (4), 1521-1531, 2011
Nov 04, 2015· Horpibulsuk S, Rachan R, Suddeepong A, Chinkulkijniwat A. 2011. Strength development in cement admixed Bangkok clay: laboratory and field investigations. Soils and Foundations 51 (2): 239-251 Crossref, Google Scholar.
For quite some time, cement is one of the well-known binders in soil stabilization, but it releases high amount of CO2, and energy consumption of cement have caused civil engineers to use some other materials or by-products to fully or partially replace cement for soil stabilization.
The relationship among strength, clay–water/ cement ratio, and curing time for the blended cement admixed Bangkok clay is finally developed and ver-ified. It is useful to assess the strength at any...
This paper focuses on the strength development and pore structure evolution of high-plasticity clay mixtures treated with metakaolin- (MK-) blended ordinary Portland cement (OPC). The unconfined compressive strength ( f cu ) of treated soil mixtures is measured to study the effect of MK replacement. The microstructural study is carried out by mercury intrusion porosimetry (MIP), scanning ...
[4] Suksun Horpibulsuk, Runglawan Rachan, Apichat Suddeepong, Assessment of strength development in blended cement admixed Bangkok clay, Construction and Building Materials 25 (2011),p.1521–1531. DOI: 10.1016/jnbuildmat.2010.08.006
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