Mobile QR Code QR CODE

Journal of the Korea Concrete Institute

J Korea Inst. Struct. Maint. Insp.
  • Indexed by
  • Korea Citation Index (KCI)

Journal Search

  1. Home
  2. All Issues
  3. 2020-08 (Vol.24 No.4)
  4. 10.11112/jksmi.2020.24.4.18
XML PDF INFO REF

References

1 
Chen K.-W., Pan S.-Y., Chen C.-T., Chen Y.-H., Chiang P.-C., 2016, High-gravity carbonation of basic oxygen furnace slag for CO$_2$ fixation and utilization in blended cement, Journal of Cleaner Production, Vol. 124, pp. 350-360DOI
2 
Gartner E., 2004, Industrially interesting approaches to ‘‘low- CO$_2$” cements, Cem. Concr. Res, Vol. 34, pp. 1489-1498DOI
3 
Barkera D.J., Turner S.A., Napier-Moorea P.A., Clarkb M., Davisonc J.E., 2009, CO$_2$ Capture in the Cement Industry, Energy Procedia, Vol. 02, pp. 87-94DOI
4 
Zhang Z., Huisingh D., 2017, Carbon dioxide storage schemes: Technology, assessment and deployment, Journal of Cleaner Production, Vol. 142, pp. 1055-1064DOI
5 
Bachu S., 2004, Evaluation of CO$_2$ sequestration capacity in oil and gas reservoirs in the Western Canada Sedimentary Basin, Alberta Geological Survey, Alberta Energy and Utilities Board March, Vol. 114, pp. 1-77Google Search
6 
Dindi A., Quang D.V, Vega Lourdes F., Nashef Enas, Abu-Zahra Mohammad R. M., 2019, Applications of fly ash for CO$_2$ capture, utilization, and storage, Journal of CO$_2$ Utilization, Vol. 29, pp. 82-102DOI
7 
Chung S.Y., Kim J.S., Lehmann C., Stephan D., Han T.S., Elrahman M.A. , 2020, Investigation of phase composition and microstructure of foamed cement paste with different supplementary cementing materials, cement and concrete composites, Vol. 109, pp. 103560DOI
8 
Sun Z., Lin X.C, Vollpracht A., 2018, Pervious concrete made of alkali activated slag and geopolymers, Construction and Building Materials, Vol. 189, pp. 797-803DOI
9 
Young J., Berger R., Breese J., 1974, Accelerated curing of compacted calcium silicate mortars on exposure to CO$_2$, J. Am. Ceram. Soc, Vol. 57, pp. 394-397DOI
10 
Mo L,W., Zhang F., 2016, Mechanical performance and microstructure of the calcium carbonate binders produced by carbonating steel slag paste under CO$_2$ curing, Min Deng Cement and Concrete Research, Vol. 88, pp. 217-226DOI
11 
Moon E.J., Choi Y.C., 2018, Development of carbon-capture binder using stainless steel argon oxygen decarburization slag activated by carbonation, Journal of Cleaner Production, Vol. 180, pp. 642-654DOI
12 
Salman M., Cizer O., Pontikes Y., Santos R.M., Snellings R., Vandewalle L., Blanplain B., Balen K.V., 2014, Effect of accelerated carbonation on AOD stainless steel slag for its valorisation as a CO$_2$ -sequestering construction material, Chemical Engineering Journal, Vol. 246, pp. 39-52DOI
13 
Hou L., Li J., Lu Z., Niu Y.H., Jiang J., Li T., 2019, Effect of nanoparticles on foaming agent and the foamed concrete, Construction and Building Materials, Vol. 227, pp. 116698DOI
14 
Oren O.H., Gholampour A., Gencel O., Ozbakkaloglu T., 2020, Physical and mechanical properties of foam concretes containing granulated blast furnace slag as fine aggregate, Construction and Building Material, Vol. 238, pp. 117774DOI
15 
Kenzo W., Kosuke Y., Noboru S., Etsuo S, 2012, The mechanism of pore reduction due to carbonation reaction of γ-2CaO・SiO$_2$ and pozolanic admixtures with low-heat-portland-cement Journal of Japan Society of Civil Engineers, Vol. 68, No. 1, pp. 83-92DOI
16 
Watanabe K., Yokozeki K., Ashizawa R., Sakata N., Morioka M., Sakai E., Daimo M., 2006, High durability cementitious material with mineral admixtures and carbonation curing, Waste Management, Vol. 26, pp. 752-757DOI
17 
Saito G., Sakai E., Watanabe K., Morioka M., Otsuki N., 2008, Carbonation reaction of calcium silicate hydrates containing γ-2CaO-SiO$_2$ and mechanisms of vaterite formation, J Soc Inorg Mater Japan, Vol. 15, pp. 284-92Google Search
18 
Guan X., Liu S., Feng C., Qiu M., 2016, The hardening behavior of γ-C$_2$S binder using accelerated carbonation, Construction and Building Materials, Vol. 114, pp. 204-207DOI
19 
Cui H., Tang W.C, Liu W., Dong Z., Xin F., 2015, Experimental study on effects of CO$_2$ concentrations on concrete carbonation and diffusion mechanisms, Construction and Building Materials, Vol. 93, pp. 522-527DOI
20 
Kriskova L., Pontikes Y., Cizer zlem Mertens G., Veulemans W., Geysen D., Jones P.T., Vandewalle L., Van Balen K., Blanpain B., 2012, Effect of mechanical activation on the hydraulic properties of stainless steel slags, Cem. Concr. Res, Vol. 42, pp. 778-788DOI