Strength and deformation characteristics of carbonated reactive magnesia treated silt soil

MIKKELSEN M, JORGENSEN M, KREBS F C. The teraton challenge: A review of fixation and transformation of carbon dioxide [J]. Energy & Environmental Science, 2010, 3: 43–81.

DRAGE T C, BLACKMAN J M, PEVIDA C, SNAPE C E. Evaluation of activated carbon adsorbents for CO2 capture in gasification [J]. Energy & Fuels, 2009, 23: 2790–2796.

METZ B, DAVIDSON O, de CONINCK H, LOOS M, MEYER L. IPCC special report on carbon dioxide capture and storage: Prepared by working group III of the intergovernmental panel on climate change [M]. Cambridge, United Kingdom and New York, USA: Cambridge University Press, 2005: 12–24.

YANG Hong-qun, XU Zheng-he, FAN Mao-hong, GUPTA R, SLIMANE R B, BLAND A E, WRIGHT I. Progress in carbon dioxide separation and capture: A review [J]. Journal of Environmental Sciences. 2008, 20: 14–27.

LI L, ZHAO N, WEI W, SUN Y. A review of research progress on CO2 capture, storage, and utilization in Chinese Academy of Sciences [J]. Fuel, 2013, 108: 112–130.

LIM M, HAN G C, AHN J W, YOU K S. Environmental remediation and conversion of carbon dioxide (CO2) into useful green products by accelerated carbonation technology [J]. International Journal of Environmental Research and Public Health, 2010, 7: 203–228.

HASELBACH L, THOMAS A. Carbon sequestration in concrete sidewalk samples [J]. Construction and Building Materials, 2014, 54: 47–52.

HARRISON A. Reactive magnesium oxide cements. Australian Patent [P]. 2001: 01/55049A1.

HARRISON A, FCPA BSBE. New cements based on the addition of reactive magnesia to Portland cement with or without added pozzolan [C]// Proc CIA Conf: Concrete in the Third Millennium. Brisbane, Australia: CIA, 2003: 1–11.

HARRISON A. Reactive magnesium oxide cements [P]. US Patent 10/181, 442, 2001.

YI Y, LISKA M, UNLUER C, AL-TABBAA A. Carbonating magnesia for soil stabilisation [J]. Canadian Geotechnical Journal, 2013, 50: 899–905.

VANDEPERRE L, AL-TABBAA A. Accelerated carbonation of reactive MgO cements [J]. Advances in Cement Research, 2007, 19: 67–80.

MO L, PANESAR D K. Effects of accelerated carbonation on the microstructure of Portland cement pastes containing reactive MgO [J]. Cement and Concrete Research, 2012, 42: 769–777.

LISKA M, VANDEPERRE L, AL-TABBAA A. Influence of carbonation on the properties of reactive magnesia cement-based pressed masonry units [J]. Advances in Cement Research, 2008, 20: 53–64.

GAO Qiang-jian, JIANG Xin, WEI Guo, SHEN Feng-man. Effects of MgO on densification and consolidation of oxidized pellets [J]. Journal of Central South University, 2014, 21: 877–883.

LISKA M, AL-TABBAA A. Ultra-green construction: Reactive magnesia masonry products [J]. Proceedings of the ICE-Waste and Resource Management, 2009, 162: 185–196.

LISKA M, AL-TABBAA A. Performance of magnesia cements in porous blocks in acid and magnesium environments [J]. Advances in Cement Research, 2012, 24: 221–232.

LISKA M, AL-TABBAA A, CARTER K, FIFIELD J. Scaled-up commercial production of reactive magnesia cement pressed masonry units. Part II: Performance [J]. Proceedings of the ICE-Construction Materials, 2012, 165: 225–243.

LISKA M, AL-TABBAA A, CARTER K, FIFIELD J. Scaled-up commercial production of reactive magnesium cement pressed masonry units. Part I: Production [J]. Proceedings of the Institution of Civil Engineers Construction Materials, 2012, 165: 211–223.

YI Y, LISKA M, AL-TABBAA A. Initial investigation into the use of GGBS-MgO in soil stabilisation [C]// Grouting and Deep Mixing, ASCE, 2012: 444–453.

IYENGAR S, AL-TABBAA A. Application of two novel magnesia-based cements in the stabilization/solidification of contaminated soils [C]// Proceedings of GeoCongress: Geotechnics of Waste Management and Remediation. ASCE, 2008: 716–723.

JEGANDAN S, LISKA M, OSMAN A A, AL-TABBAA A. Sustainable binders for soil stabilisation [J]. Proceedings of the ICE-Ground Improvement, 2010, 163: 53–61.

COSTA G, BACIOCCHI R, POLETTINI A, POMI R, HILLS C D, CAREY P J. Current status and perspectives of accelerated carbonation processes on municipal waste combustion residues [J]. Environmental Monitoring and Assessment, 2007, 135: 55–75.

UNLUER C, AL-TABBAA A. Impact of hydrated magnesium carbonate additives on the carbonation of reactive MgO cements [J]. Cement and Concrete Research, 2013, 54: 87–97.

LANAS J, PÉREZ BERNAL J, BELLO M, ALVAREZ J I. Mechanical properties of masonry repair dolomitic lime-based mortars [J]. Cement and Concrete Research, 2006, 36: 951–960.

FERRINI V, de VITO C, MIGNARDI S. Synthesis of nesquehonite by reaction of gaseous CO2 with Mg chloride solution: Its potential role in the sequestration of carbon dioxide [J]. Journal of Hazardous Materials, 2009, 168: 832–837.

YI Y, LISKA M, AL-TABBAA A. Properties of two model soils stabilised with different blends and contents of GGBS, MgO, lime and PC [J]. Journal of Materials in Civil Engineering. 2013, 26: 267–274.

CONSOLI N C, ROSA D A, CRUZ R C, ROSA A D. Water content, porosity and cement content as parameters controlling strength of artificially cemented silty soil [J]. Engineering Geology, 2011, 122: 328–333.

WANG D, ABRIAK N E, ZENTAR R. Strength and deformation properties of Dunkirk marine sediments solidified with cement, lime and fly ash [J]. Engineering Geology, 2013, 166: 90–99.

CIANCIO D, BECKETT C, CARRARO J. Optimum lime content identification for lime-stabilised rammed earth [J]. Construction and Building Materials, 2014, 53: 59–65.

SHAND M A. The chemistry and technology of magnesia [M]. Hoboken, NJ, John Wiley & Sons, 2006: 133–139.

TANG Yi-xin, LIU Han-long, ZHU Wei. Study on engineering properties of cement-stabilized soil [J]. Chinese Jounal of Geotechnical Engineering, 2000, 22(5): 549–554.

DU Yan-jun, WEI Ming-li, JIN Fei, LIU Zhi-bin. Stress-strain relation and strength characteristics of cement treated zinc-contaminated clay [J]. Engineering Geology, 2013, 167: 20–26.

ZHU Wei, ZHANG Chun-lei, GAO Yu-feng, FAN Zhao-ping. Fundamental mechanical properties of solidified dredged marine sediment [J]. Journal of Zhejiang University Engineering Science, 2005, 39(10): 1561–1565.

CHEN Lei, LIU Song-yu, DU Yan-jun, JIN Fei. Unconfined compressive strength properties of cement solidified/stabilized lead-contaminated soils [J]. Chinese Journal of Geotechnical Engineering, 2010, 12: 1898–1903. (in Chinese)

HORPIBULSUK S, PHOJAN W, SUDDEEPONG A, CHINKULKIJNIWAT A, LIU M D. Strength development in blended cement admixed saline clay [J]. Applied Clay Science, 2012, 55: 44–52.

JONGPRADIST P, JUMLONGGRACH N, YOUWAI S, CHUCHEEPSAKUL S. Influence of fly ash on unconfined compressive strength of cement-admixed clay at high water content [J]. Journal of Materials in Civil Engineering, 2009, 22: 49–58.