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Results 1 to 25 of 131

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Alkali activation of halloysite for adsorption and release of ofloxacinQIN WANG; JUNPING ZHANG; AIQIN WANG et al.Applied surface science. 2013, Vol 287, pp 54-61, issn 0169-4332, 8 p.Article

Reaction kinetics in sodium silicate powder and liquid activated slag binders evaluated using isothermal calorimetryRAVIKUMAR, Deepak; NEITHALATH, Narayanan.Thermochimica acta. 2012, Vol 546, pp 32-43, issn 0040-6031, 12 p.Article

Chemical and freeze-thaw resistance of fly ash-based inorganic mortarsPEIJIANG SUN; WU, Hwai-Chung.Fuel (Guildford). 2013, Vol 111, pp 740-745, issn 0016-2361, 6 p.Article

Alkali activation of biomass fly ash―metakaolin blendsRAJAMMA, Rejini; LABRINCHA, Joao A; FERREIRA, Victor M et al.Fuel (Guildford). 2012, Vol 98, pp 265-271, issn 0016-2361, 7 p.Article

Solidification of electroplating sludge using alkali-activated pulverized fuel ash as cementitious binderASAVAPISIT, Suwimol; CHOTKLANG, Duangruedee.Cement and concrete research. 2004, Vol 34, Num 2, pp 349-353, issn 0008-8846, 5 p.Article

Cementitious composites with glass waste from recycling of cathode ray tubesMONCEA, A. M; BADANOIU, A; GEORGESCU, M et al.Materials and structures. 2013, Vol 46, Num 12, pp 2135-2144, issn 1359-5997, 10 p.Article

An assessment of Mercury immobilisation in alkali activated fly ash (AAFA) cementsDONATELLO, Shane; FERNANDEZ-JIMENEZ, Ana; PALOMO, Angel et al.Journal of hazardous materials (Print). 2012, Vol 213-14, pp 207-215, issn 0304-3894, 9 p.Article

Mechanical and microstructural properties of alkali-activated fly ash geopolymersKOMLJENOVIC, M; BASCAREVIC, Z; BRADIC, V et al.Journal of hazardous materials (Print). 2010, Vol 181, Num 1-3, pp 35-42, issn 0304-3894, 8 p.Article

Response of alkali activated fly ash mortars to microwave curingSOMARATNA, Jeevaka; RAVIKUMAR, Deepak; NEITHALATH, Narayanan et al.Cement and concrete research. 2010, Vol 40, Num 12, pp 1688-1696, issn 0008-8846, 9 p.Article

Alkali-activated blast furnace slag-based nanomaterial as a novel catalyst for synthesis of hydrogen fuelYAO JUN ZHANG; QIAN CHAI.Fuel (Guildford). 2014, Vol 115, pp 84-87, issn 0016-2361, 4 p.Article

Mitigation of autogenous shrinkage in alkali activated slag mortars by internal curingSAKULICH, A. R; BENTZ, D. P.Materials and structures. 2013, Vol 46, Num 8, pp 1355-1367, issn 1359-5997, 13 p.Article

Clay reactivity: Production of alkali activated cementsRUIZ-SANTAQUITERIA, C; FERNANDEZ-JIMENEZ, A; SKIBSTED, J et al.Applied clay science. 2013, Vol 73, pp 11-16, issn 0169-1317, 6 p.Article

Synthesis of thermostable geopolymer from circulating fluidized bed combustion (CFBC) bottom ashesHUI XU; QIN LI; LIFENG SHEN et al.Journal of hazardous materials (Print). 2010, Vol 175, Num 1-3, pp 198-204, issn 0304-3894, 7 p.Article

The role played by the reactive alumina content in the alkaline activation of fly ashesFERNANDEZ-JIMENEZ, A; PALOMO, A; SOBRADOS, I et al.Microporous and mesoporous materials. 2006, Vol 91, Num 1-3, pp 111-119, issn 1387-1811, 9 p.Article

The use of alkali activated waste binders in enhancing the mechanical properties and durability of soft alluvial soilsSARGENT, Paul; HUGHES, Paul N; ROUAINIA, Mohamed et al.Engineering geology. 2013, Vol 152, Num 1, pp 96-108, issn 0013-7952, 13 p.Article

Material and structural characterization of alkali activated low-calcium brown coal fly ashSKVARA, Frantisek; KOPECKY, Lubomir; SMILAUER, Vít et al.Journal of hazardous materials (Print). 2009, Vol 168, Num 2-3, pp 711-720, issn 0304-3894, 10 p.Article

Corrosion resistance in activated fly ash mortarsMIRANDA, J. M; FERNANDEZ-JIMENEZ, A; GONZELEZ, J. A et al.Cement and concrete research. 2005, Vol 35, Num 6, pp 1210-1217, issn 0008-8846, 8 p.Article

Microstructure development of alkali-activated fly ash cement : a descriptive modelFERNANDEZ-JIMENEZ, A; PALOMO, A; CRIADO, M et al.Cement and concrete research. 2005, Vol 35, Num 6, pp 1204-1209, issn 0008-8846, 6 p.Article

Composition and microstructure of alkali activated fly ash binder : Effect of the activatorFERNANDEZ-JIMENEZ, A; PALOMO, A.Cement and concrete research. 2005, Vol 35, Num 10, pp 1984-1992, issn 0008-8846, 9 p.Article

Geopolymers and other alkali activated materials: why, how, and what?PROVIS, John L.Materials and structures. 2014, Vol 47, Num 1-2, pp 11-25, issn 1359-5997, 15 p.Article

Quantitative determination of phases in the alkaline activation of fly ash. Part II: Degree of reactionFERNANDEZ-JIMENEZ, A; DE LA TORRE, A. G; PALOMO, A et al.Fuel (Guildford). 2006, Vol 85, Num 14-15, pp 1960-1969, issn 0016-2361, 10 p.Article

Rheological behavior of alkali-activated metakaolin during geopolymerizationPOULESQUEN, A; FRIZON, F; LAMBERTIN, D et al.Journal of non-crystalline solids. 2011, Vol 357, Num 21, pp 3565-3571, issn 0022-3093, 7 p.Article

Estabilidad del estado pasivo del acero en morteros de ceniza volante activada = Steel passive state stability in activated fly ash mortarsFERNANDEZ-JIMENEZ, A; MIRANDA, J. M; GONZALEZ, J. A et al.Materiales de construcción (Madrid). 2010, Vol 60, Num 300, pp 51-65, issn 0465-2746, 15 p.Article

Preparation of sintered foam materials by alkali-activated coal fly ashYELONG ZHAO; JUNWEI YE; XIAOBIN LU et al.Journal of hazardous materials (Print). 2010, Vol 174, Num 1-3, pp 108-112, issn 0304-3894, 5 p.Article

Geopolímeros basados en residuos de la producciôn de áridos ligeros = Geopolymerization of lightweight aggregate wasteSCARES, P; PINTO, A. T; FERREIRA, V. M et al.Materiales de construcción (Madrid). 2008, Vol 58, Num 291, pp 23-34, issn 0465-2746, 12 p.Article

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