Cement clinker structure during plasma-chemical synthesis and its influence on cement properties

“…Moreover, the compressive strength was 17.3 and 23.5 MPa. This may testify the higher activity of the viscous substance in hydration produced based on plasma-chemical technology [8]. The received results are correlated with that 0.5 part of the main calcium silicate -alite may have the deformed lattice owing to which the mineral may interact with water [9] more intensive.…”

“…The mean dimensions of the clinker minerals formed based on the identical mixtures under different technological regimes of thermoprocessing are given in Table 4. The ratio of the alite mineral length to their width (Table 4) is the important structure character of cement clinker to determine the physico-mechanical cement properties [8], the great value of which may testify the maximal activity of the viscous substance. So, the reaction capability of the charge may be increased under conditions of LTP because of the following conditions: intensive analysis; the intensive heating and melting the mixture; decrease in the viscosity of the liquid phase; the high temperature gradient in crystallization process of melting as well as the higher reaction capability of the charge.…”

Physico-mechanical and physico-chemical properties of synthesized cement based on plasma- and wet technologies

“…Moreover, the compressive strength was 17.3 and 23.5 MPa. This may testify the higher activity of the viscous substance in hydration produced based on plasma-chemical technology [8]. The received results are correlated with that 0.5 part of the main calcium silicate -alite may have the deformed lattice owing to which the mineral may interact with water [9] more intensive.…”

“…The mean dimensions of the clinker minerals formed based on the identical mixtures under different technological regimes of thermoprocessing are given in Table 4. The ratio of the alite mineral length to their width (Table 4) is the important structure character of cement clinker to determine the physico-mechanical cement properties [8], the great value of which may testify the maximal activity of the viscous substance. So, the reaction capability of the charge may be increased under conditions of LTP because of the following conditions: intensive analysis; the intensive heating and melting the mixture; decrease in the viscosity of the liquid phase; the high temperature gradient in crystallization process of melting as well as the higher reaction capability of the charge.…”

Physico-mechanical and physico-chemical properties of synthesized cement based on plasma- and wet technologies

Using the low-temperature plasma in cement production

The Cement Mechanical Activation Effective Application Field Determination