• Corpus ID: 138954566

Calcium carbide residue - A cementing agent for sustainable soil stabilization

@inproceedings{Horpibulsuk2015CalciumCR,
  title={Calcium carbide residue - A cementing agent for sustainable soil stabilization},
  author={Suksun Horpibulsuk and Apichit Kampala and Chayakrit Phetchuay and Artit Udomchai and Arul Arulrajah},
  year={2015},
  url={https://api.semanticscholar.org/CorpusID:138954566}
}
The high unit cost and energy intensive process in the production of Portland cement are the driving forces for the need to seek for alternative cementitious additives. Calcium Carbide Residue (CCR) has been recently introduced as a sustainable cementing agent. The recent research on the engineering properties of CCR stabilized clay as a subbase/base materials is reviewed and presented in this paper. CCR alone as well as a mixture of CCR and fly ash (FA) can be used for soil stabilization… 
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24 Citations
Background Citations
4
Methods Citations
2

24 Citations

INVESTIGATION OF CALCIUM CARBIDE RESIDUE AS A STABILIZER FOR TROPICAL SAND USED AS PAVEMENT MATERIAL

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Utilizing granulated blast furnace slag (GBFS), coal fly ash (FA), and furfural residue incineration ash (FRIA) as pozzolanic materials, then activated with calcium carbide residue (CCR) respectively

38 References

Engineering Properties of Silty Clay Stabilized with Calcium Carbide Residue

Calcium carbide residue (CCR) is a waste product from acetylene gas factories, which is rich in calcium hydroxide (CaðOHÞ2). Because clayey soils contain high amount of natural pozzolanic materials

Influence of Wet-Dry Cycles on Compressive Strength of Calcium Carbide Residue–Fly Ash Stabilized Clay

This article studies the durability of the calcium carbide residue (CCR) and fly ash (FA) stabilized silty clay against wetting and drying cycles to ascertain its performance in pavement

Soil Stabilization by Calcium Carbide Residue and Fly Ash

Calcium carbide residue (CCR) and fly ash (FA) are both waste products from acetylene gas factories and power plants, respectively. The mixture of CCR and FA produces a cementitious material because

Strength and microstructure development in Bangkok clay stabilized with calcium carbide residue and biomass ash

The clay stabilized by XRD showed no reduction in the intensity of the reflection of the both quartz and kaolinite throughout the curing times, which implies that the amorphous silica from the glass of the BA is more reactive in dissolution in the CCR than the crystalline phase of quartz and Kaolin in clay.

Strength development in silty clay stabilized with calcium carbide residue and fly ash

Water-void to cement ratio identity of lightweight cellular-cemented material

AbstractLightweight cellular cemented clays have wide range of applications in the infrastructure rehabilitation and in the construction of new facilities. Since the inception of this method, the

ENGINEERING BEHAVIOR OF CEMENT STABILIZED CLAY AT HIGH WATER CONTENT

The in-situ deep mixing technique has been established as a means to effect columnar inclusions into soft ground to enhance the bearing capacity and reduce settlement. Since the inception of this

STRENGTH DEVELOPMENT IN CEMENT ADMIXED BANGKOK CLAY: LABORATORY AND FIELD INVESTIGATIONS

ABSTRACT The in-situ deep mixing technique has been established as an effective means to effect columnar inclusions into soft Bangkok clay to enhance bearing capacity and reduce settlement. In this

Assessment of strength development in blended cement admixed Bangkok clay

Analysis of strength development in cement-stabilized silty clay from microstructural considerations