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MECHANICAL ACTIVATION OF FLY ASH AND SLAG AS A METHOD TO HIGH PERFORMANCE BINDER DEVELOPMENT
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Tianyu X., Togay O., Behavior of low-calcium fly and bottom ash-based geopolymer concrete cured at ambient temperature, Ceram Int, 2015, vol 41, pp 5945-5958.
Marjanović N., Komljenović M., Baščarević Z., Nikolić V., Improving reactivity of fly ash and properties of ensuing geopolymers through mechanical activation, Const Build Mater, 2014, vol 57, pp 151-162.
Yu R., Spiesz P., Brouwers H. J. H., Effect of nano-silica on the hydration and microstructure development of Ultra-High Performance Concrete (UHPC) with a low binder amount, Const Build Mater, 2014, vol 65, pp 140-150.
Šmilauer V., Zobal O., Bittnar Z., Hela R., Snop R., Donát P., Utilization of fly ash for massive concrete structures, Beton TKS, 2014, vol 2, pp 60-65.
Pacheco-Torgal F., Castro-Gomes J., Jalali S., Alkali-activated binders: A review: Part 1. Historical background, terminology, reaction mechanisms and hydration products, Const Build Mater, 2008, vol 22, pp 1305-1314.
Rashad A. M., Alkali-activated metakaolin: A short guide for civil Engineer – An overview, Const Build Mater, 2013, vol 41, pp 751-765.
Purdon A. O., The action of alkalis on blast-furnace slag, J Soc Chem Ind, 1940, vol 59, pp 191-136.
Davidovits J., Geopolymers - inorganic polymeric new materials, J Therm Anal, 1991, vol 37, pp 1633–1656.
Kovářík T., Bělský P., Novotný P., Říha J., Savková J., Medlín R., Rieger D., Holba P., Structural and physical changes of re-calcined metakaolin regarding its reactivity, Const Build Mater, 2015, vol 80, pp 98-104.
Fernández-Jiménez A., Palomo A., Alonso M. M., Alkali activation of fly ashes: mechanisms of reaction, Proceeding Non traditional Cement and Concrete 2005, Czech Republic, Brno, p. 13-14.
Šesták J., Foller B., Some aspects of composite inorganic polysialates, J Term Anal Calorim, 2012, vol 109, pp 1-5.
Part W. K., Ramli M., Cheah Ch. B., An overview on the influence of various factors on the properties of geopolymer concrete derived from industrial by- products, Const Build Mater, 2015, vol 77, pp 370-395.
Hounsi A. D., Lecomte- Nana G. L., Djétéli G., Blanchart P., Kaolin -based geopolymers: Effect of mechanical activation and curing process, Const Build Mater, 2013, vol 42, pp 105-113.
Steins P., Poulesquen A., Diat O., Frizon F., Structural Evolution during Geopolymerization from an Early Age to Consolidated Material, Langmuir, 2012, vol 28, pp 8502-8510.
Rieger D., Kovářík T., Říha J., Medlín R., Novotný P., Bělský P., Kadlec J., Holba P., Effect of thermal treatment on reactivity and mechanical properties of alkali activated shale–slag binder, Const Build Mater, 2015, vol 83, pp 26-33. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Tianyu X., Togay O., Behavior of low-calcium fly and bottom ash-based geopolymer concrete cured at ambient temperature, Ceram Int, 2015, vol 41, pp 5945-5958.
Marjanović N., Komljenović M., Baščarević Z., Nikolić V., Improving reactivity of fly ash and properties of ensuing geopolymers through mechanical activation, Const Build Mater, 2014, vol 57, pp 151-162.
Yu R., Spiesz P., Brouwers H. J. H., Effect of nano-silica on the hydration and microstructure development of Ultra-High Performance Concrete (UHPC) with a low binder amount, Const Build Mater, 2014, vol 65, pp 140-150.
Šmilauer V., Zobal O., Bittnar Z., Hela R., Snop R., Donát P., Utilization of fly ash for massive concrete structures, Beton TKS, 2014, vol 2, pp 60-65.
Pacheco-Torgal F., Castro-Gomes J., Jalali S., Alkali-activated binders: A review: Part 1. Historical background, terminology, reaction mechanisms and hydration products, Const Build Mater, 2008, vol 22, pp 1305-1314.
Rashad A. M., Alkali-activated metakaolin: A short guide for civil Engineer – An overview, Const Build Mater, 2013, vol 41, pp 751-765.
Purdon A. O., The action of alkalis on blast-furnace slag, J Soc Chem Ind, 1940, vol 59, pp 191-136.
Davidovits J., Geopolymers - inorganic polymeric new materials, J Therm Anal, 1991, vol 37, pp 1633–1656.
Kovářík T., Bělský P., Novotný P., Říha J., Savková J., Medlín R., Rieger D., Holba P., Structural and physical changes of re-calcined metakaolin regarding its reactivity, Const Build Mater, 2015, vol 80, pp 98-104.
Fernández-Jiménez A., Palomo A., Alonso M. M., Alkali activation of fly ashes: mechanisms of reaction, Proceeding Non traditional Cement and Concrete 2005, Czech Republic, Brno, p. 13-14.
Šesták J., Foller B., Some aspects of composite inorganic polysialates, J Term Anal Calorim, 2012, vol 109, pp 1-5.
Part W. K., Ramli M., Cheah Ch. B., An overview on the influence of various factors on the properties of geopolymer concrete derived from industrial by- products, Const Build Mater, 2015, vol 77, pp 370-395.
Hounsi A. D., Lecomte- Nana G. L., Djétéli G., Blanchart P., Kaolin -based geopolymers: Effect of mechanical activation and curing process, Const Build Mater, 2013, vol 42, pp 105-113.
Steins P., Poulesquen A., Diat O., Frizon F., Structural Evolution during Geopolymerization from an Early Age to Consolidated Material, Langmuir, 2012, vol 28, pp 8502-8510.
Rieger D., Kovářík T., Říha J., Medlín R., Novotný P., Bělský P., Kadlec J., Holba P., Effect of thermal treatment on reactivity and mechanical properties of alkali activated shale–slag binder, Const Build Mater, 2015, vol 83, pp 26-33. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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