Effect of magnesium chloride solution on the physico-chemical characteristics of tropical peat View Full Text


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Article Info

DATE

2016-01-25

AUTHORS

Nima Latifi, Ahmad Safuan A. Rashid, Aminaton Marto, Mahmood Md Tahir

ABSTRACT

The stabilization of soils with additives is a chemical method that can be used to improve soils with weak engineering properties. Although the effects of non-traditional additives on the geotechnical properties of tropical soils have been subject of investigation in recent years, the effects of magnesium chloride (MgCl2) on the macro- and micro-structural characteristics of peat soil have not been fully studied. This study investigates the effect of MgCl2 on the physico-chemical characteristics of tropical peat. Unconfined compression strength tests were performed as an index of soil improvement in treated samples. In addition, the micro-structural characteristics of untreated and treated peat were investigated using various spectroscopic and microscopic techniques such as X-ray diffractometry, energy-dispersive X-ray spectrometry, field emission scanning electron microscopy, Fourier transform infrared spectroscopy, and Brunauer, Emmett, and Teller surface area analysis. From an engineering point of view, the results indicated that the strength of MgCl2-stabilized peat improved significantly. The degree of improvement was approximately six times stronger than untreated peat, after a 7-day curing period. Additionally, the micro-structural study revealed that the stabilization process led to a few changes in the mineralogical, morphological, and molecular characteristics of the selected peat. The pores of the peat were filled by newly formed crystalline compounds known as magnesium aluminate hydrate (M–A–H). More... »

PAGES

220

References to SciGraph publications

  • 2011-08-20. Stabilization of tropical kaolin soil with phosphoric acid and lime in NATURAL HAZARDS
  • 2014-05-09. Peaty Soil Improvement by Using Cationic Reagent Grout and Electrokintic Method in GEOTECHNICAL AND GEOLOGICAL ENGINEERING
  • 2013-03-19. Shear Strength Parameters of Improved Peat by Chemical Stabilizer in GEOTECHNICAL AND GEOLOGICAL ENGINEERING
  • 2013-11-20. Strength behavior and microstructural characteristics of tropical laterite soil treated with sodium silicate-based liquid stabilizer in ENVIRONMENTAL EARTH SCIENCES
  • 2010-08. Effect of agglomeration during coprecipitation: Delayed spinellization of magnesium aluminate hydrate in BULLETIN OF MATERIALS SCIENCE
  • 2011-06-02. Effect of aggressive pH media on peat treated by cement and sodium silicate grout in JOURNAL OF CENTRAL SOUTH UNIVERSITY
  • 2011-10-19. Influence of Peat Characteristics on Cementation and Pozzolanic Reactions in the Dry Mixing Method in ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING
  • 2010-02. Function of magnesium aluminate hydrate and magnesium nitrate as MgO addition in crystal structure and grain size control of α-Al2O3 during sintering in BULLETIN OF MATERIALS SCIENCE
  • 2014-07-06. Analysis of strength development in non-traditional liquid additive-stabilized laterite soil from macro- and micro-structural considerations in ENVIRONMENTAL EARTH SCIENCES
  • 2015-03-03. Physicochemical behavior of tropical laterite soil stabilized with non-traditional additive in ACTA GEOTECHNICA
  • 2011-08-31. Stabilization of Tropical Peat Soil from Sarawak with Different Stabilizing Agents in GEOTECHNICAL AND GEOLOGICAL ENGINEERING
  • 2010-10-17. Characterization of phosphoric acid- and lime-stabilized tropical lateritic clay in ENVIRONMENTAL EARTH SCIENCES
  • 2008-09-20. Condition of Soils and Vegetation Along Roads Treated with Magnesium Chloride for Dust Suppression in WATER, AIR, & SOIL POLLUTION
  • 2014-07-14. Effect of Non-Traditional Additives on Engineering and Microstructural Characteristics of Laterite Soil in ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING
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