Synthesis, characterization and hydration analysis of Ba2+-, Cu2+- or Bi3+-doped CaO–Al2O3–ZrO2-based cements

This paper deals with the design, synthesis, hydration mechanism and hydration products of novel Ba 2+ -, Cu 2+ - or Bi 3+ -doped CaO–Al 2 O 3 –ZrO 2 -based cementitious materials used for heavyweight concrete mixes. The results of the heating microscopy thermal analysis indicated that both Cu and B...

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Veröffentlicht in:	Journal of thermal analysis and calorimetry 2019, Vol.138 (6), p.4331-4340
Hauptverfasser:	Madej, Dominika, Boris, Renata
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Sprache:	eng
Schlagworte:	Aluminum oxide Analytical Chemistry Barium Bismuth Calcium aluminate Calcium oxide Calcium zirconate Cement paste Cements Chemistry Chemistry and Materials Science Clinker Copper Doping Hydrates Hydration Inorganic Chemistry Measurement Science and Instrumentation Melting points Metal ions Morphology Perovskites Physical Chemistry Polymer Sciences Synthesis Thermal analysis Thermal resistance Zirconium dioxide
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container_title	Journal of thermal analysis and calorimetry
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creator	Madej, Dominika Boris, Renata
description	This paper deals with the design, synthesis, hydration mechanism and hydration products of novel Ba 2+ -, Cu 2+ - or Bi 3+ -doped CaO–Al 2 O 3 –ZrO 2 -based cementitious materials used for heavyweight concrete mixes. The results of the heating microscopy thermal analysis indicated that both Cu and Bi in a Ca 7 ZrAl 6 O 18 -based cement clinker can effectively reduce the sintering temperature by 150–200 °C. Incorporation of barium for the synthesis of calcium zirconium aluminate-based hydraulic binder increased its thermal resistance since Ba 2+ -doped Ca 7 ZrAl 6 O 18 along with accessory (Ca,Ba)ZrO 3 with a perovskite‐type structure and BaAl 2 O 4 phases having high melting points were formed. The presence of metal ions, i.e., Cu 2+ or Bi 3+ , created conditions which were favorable for the formation of hexagonal calcium aluminate hydrates rather than the cubic one, as confirmed by coupled DSC–TG/EGA–MS thermal analysis techniques and X-ray diffraction. For the Ba 2+ doping ions, this effect was the least noticeable. The effect of metal ions including Ba 2+ , Cu 2+ and Bi 3+ on microstructural features of cement pastes was investigated by SEM–EDS. These doping ions strongly affected the morphologies of Ca–Al hydrates.
doi_str_mv	10.1007/s10973-019-08142-7
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The results of the heating microscopy thermal analysis indicated that both Cu and Bi in a Ca 7 ZrAl 6 O 18 -based cement clinker can effectively reduce the sintering temperature by 150–200 °C. Incorporation of barium for the synthesis of calcium zirconium aluminate-based hydraulic binder increased its thermal resistance since Ba 2+ -doped Ca 7 ZrAl 6 O 18 along with accessory (Ca,Ba)ZrO 3 with a perovskite‐type structure and BaAl 2 O 4 phases having high melting points were formed. The presence of metal ions, i.e., Cu 2+ or Bi 3+ , created conditions which were favorable for the formation of hexagonal calcium aluminate hydrates rather than the cubic one, as confirmed by coupled DSC–TG/EGA–MS thermal analysis techniques and X-ray diffraction. For the Ba 2+ doping ions, this effect was the least noticeable. The effect of metal ions including Ba 2+ , Cu 2+ and Bi 3+ on microstructural features of cement pastes was investigated by SEM–EDS. 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The results of the heating microscopy thermal analysis indicated that both Cu and Bi in a Ca 7 ZrAl 6 O 18 -based cement clinker can effectively reduce the sintering temperature by 150–200 °C. Incorporation of barium for the synthesis of calcium zirconium aluminate-based hydraulic binder increased its thermal resistance since Ba 2+ -doped Ca 7 ZrAl 6 O 18 along with accessory (Ca,Ba)ZrO 3 with a perovskite‐type structure and BaAl 2 O 4 phases having high melting points were formed. The presence of metal ions, i.e., Cu 2+ or Bi 3+ , created conditions which were favorable for the formation of hexagonal calcium aluminate hydrates rather than the cubic one, as confirmed by coupled DSC–TG/EGA–MS thermal analysis techniques and X-ray diffraction. For the Ba 2+ doping ions, this effect was the least noticeable. The effect of metal ions including Ba 2+ , Cu 2+ and Bi 3+ on microstructural features of cement pastes was investigated by SEM–EDS. 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subjects	Aluminum oxide Analytical Chemistry Barium Bismuth Calcium aluminate Calcium oxide Calcium zirconate Cement paste Cements Chemistry Chemistry and Materials Science Clinker Copper Doping Hydrates Hydration Inorganic Chemistry Measurement Science and Instrumentation Melting points Metal ions Morphology Perovskites Physical Chemistry Polymer Sciences Synthesis Thermal analysis Thermal resistance Zirconium dioxide
title	Synthesis, characterization and hydration analysis of Ba2+-, Cu2+- or Bi3+-doped CaO–Al2O3–ZrO2-based cements
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