Glaze with Low Viscosity Methyl
CMC has a unique linear polymer structure. When CMC is added to water, its hydrophilic group (-COONa) combines with water to form a solvation layer, so that CMC molecules are gradually dispersed in wa
CMC has a unique linear polymer structure. When CMC is added to water, its hydrophilic group (-COONa) combines with water to form a solvation layer, so that CMC molecules are gradually dispersed in water. CMC polymers rely on hydrogen bonds and van der Waals forces to form a network structure, thus showing adhesion. Glaze with methyl used in glaze paste and flower glaze, can be used as a binder, suspension, coagulation, water retention effect. Prevent cracking and printing fracture, at the same time reduce the shrinkage of the glaze after drying, increase the strength of the raw glaze, so that it is not easy to peel off the green body, in addition to the uniform drying after glazing, thus forming a dense and solid glaze, so that the fired ceramic tile is more smooth and smooth.
Table 1: Methyl for Glaze
Number | Viscosity Model | 2%solution (mpa.s) | Remarks |
CMC-FL100 | low viscosity | 100± 50 | |
CMC-C0492 | low viscosity | 550± 50 | |
Remarks | above solution viscosity is measured at 30°C and NDJ-1 | ||
Table II: Methyl for Glaze
Number | Viscosity Model | 2%solution (mpa.s) | Remarks |
CMC-CH9 | 2700± 300 | ||
CMC-FH9(ceramic grade) | 2800± 300 | ||
CMC-C1002 | medium high viscosity | 4500± 500 | |
Remarks | above solution viscosity is measured at 30°C and NDJ-1 | ||
Table III: Methyl for Glaze
Number | Viscosity Model | 2%solution (mpa.s) | Remarks |
CVH9-1 | high viscosity | 9000± 500 | |
CVH9-2 | high viscosity | 10000± 1000 | |
CVH9-3 | high viscosity | 13000± 1000 | |
C1583 | high viscosity | 9500± 1000 | |
Remarks | above solution viscosity is measured at 30°C and NDJ-1 | ||