Optimization of material characteristics of macro-defect free cement

“…In the polyvinyl alcohol/acetate co-polymer a hydrolysis of the acetate groups takes place. The liberated acetate groups react with Ca 2+ cations in the liquid phase resulting in calcium acetate precipitation, Ca 2p 3/2 spectrum with component at 347.45 eV, which is consistent with the expected reaction mechanism [9,11]. The NIST database [25] unfortunately does not include the measured spectra of calcium acetate, but only of calcium(II) formiate with binding energy of Ca 2p 3/2 at 347.40 eV.…”

“…The crumbly mixture of cement, polymer and water is subjected to the twin roll mixer which rapidly produces rubbery, cohesive dough usable for further processing. The high-shear mixing intensity could be well controlled by gap and speed of two rollers [11]. At the beginning, researchers supposed that the highshear mixing is used only to eliminate macrodefects (large pores and air voids) from the paste, but further development confirmed, that the high-shear mixing also induces chemical interactions between the polymer and the inorganic cement [12].…”

“…The proposed chemical reaction mechanism is illustrated in Fig. 1 [9,11]. The irreversible confirmation of these bonds is the main objective of this study.…”

XPS characterization of polymer–monocalcium aluminate interface

“…In the polyvinyl alcohol/acetate co-polymer a hydrolysis of the acetate groups takes place. The liberated acetate groups react with Ca 2+ cations in the liquid phase resulting in calcium acetate precipitation, Ca 2p 3/2 spectrum with component at 347.45 eV, which is consistent with the expected reaction mechanism [9,11]. The NIST database [25] unfortunately does not include the measured spectra of calcium acetate, but only of calcium(II) formiate with binding energy of Ca 2p 3/2 at 347.40 eV.…”

“…The crumbly mixture of cement, polymer and water is subjected to the twin roll mixer which rapidly produces rubbery, cohesive dough usable for further processing. The high-shear mixing intensity could be well controlled by gap and speed of two rollers [11]. At the beginning, researchers supposed that the highshear mixing is used only to eliminate macrodefects (large pores and air voids) from the paste, but further development confirmed, that the high-shear mixing also induces chemical interactions between the polymer and the inorganic cement [12].…”

“…The proposed chemical reaction mechanism is illustrated in Fig. 1 [9,11]. The irreversible confirmation of these bonds is the main objective of this study.…”

XPS characterization of polymer–monocalcium aluminate interface

“…Especially, very high flexural strengths, 20 or 30 times higher than conventional cement pastes, were easily obtained. The reasons for obtaining such high strengths and superior properties are very low water/cement ratio, crosslinking between polymer and cement, and the unique composition and production process [3][4][5][6][7].…”

Effect of TiO2 Addition on the Properties of Macro Defect Free Cement-Polymer Composites

“…Eventually, the Me-O-Ti-O-Me (Me is cement hydrates) bond make cement hydrates form a more stable network [27][28][29], as is shown in Figure 7b. These microstructure analysis results validating fully that the strength promotion of SAC pastes is related to the above compressive strength result.…”

EFFECT OF WELL-DISPERSED NANO-TiO₂ ON SULPHOALUMINATE CEMENT HYDRATION AND ITS APPLICATION IN PHOTO-DEGRADATION