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Sodium Carboxymethyl Cellulose For Ceramic Billets
CMC can be used in ceramic body, glazing pulp, and fancy glaze. Used in ceramic body, it is a good strengthening agent, which can strengthen the mouldability of mud and sand materials, facilitate body shaping and increase the folding strength of the green body. Used in glazing pulp and fancy glaze, it is a binder that plays a role of suspending, deflocculating and water holding.
Applications in glazing pulp
CMC belongs to polyelectrolytes. It worked as binder and played a role of suspending. When CMC is added into glaze pulp, water seeped into the gel inside, and then its hydrophilic radical combined with water, and makes it swell. In addition, the gel inside is in the hydration swelling conditions, while its outside forms the bound water layer. The micelle is free in the liquid cement at the first dissolution and due to the different and asymmetric size and form, and regularly close up to each other through the Van der Waals forces and then combined with water layer to form the large size network structure, so it has the stronger adhesive capacity.
*Rheological property can be effectively adjusted under the condition of low usage, which brings convenience for enamelling;
*Improve the binding ability of the base body, increase the intensity of the glaze surface significantly and prevent glaze dropping off;
*High smoothness on glaze surface and stable glazing pulp, and reduce the pinholes of the glaze surface after burning
*Excellent performance in spreading and colloid protecting to make the glazing pulp in a stable dispersed status;
*Enhance the surface tension of the glaze materials, prevent water spreading into the base and increase the smoothness of the glaze;
*Avoid the body cracking and printing break in the transportation due to the reduction of the body strength after enamelling.
The application of CMC in ceramic billets
1. It can increase the bonding strength of the billet and make the billet easy to form;
2. Improve the flexural strength of the billet and effectively reduce the damage rate of the billet;
3. Evenly evaporate the moisture in the billet to prevent dry explosion and cracking.
Application of CMC in Ceramic Tile Bottom Glaze and Top Glaze
1. Keep the glaze in a stable dispersed state;
2. Improve the surface tension of glaze;
3. Slow down the diffusion of water from the glaze to the billet;
4. Increase the smoothness of the glaze surface;
5. To avoid cracking and printing breakage during the conveying process caused by a decrease in the strength of the body after glaze application;
6. Reduce pinholes on the glazed surface after sintering.
| Specification | |||||||||
| Types Items |
C1082 | C1582 | C1583 | C0492 | C1002 | C1592 | CH9 | CVH9 | |
| Viscosity, mPa▪s (Brookfield 25℃ 30rpm) |
1% | 450-800 | 900-1500 | 900-1500 | 350-600 | 600-1500 | 500-1000 | >3000 | |
| 2% | 5-400 | 400-2000 | 400-900 | ||||||
| Appearance | White or slightly yellowish fibrous powder or particle | ||||||||
| SVR (Brookfield) |
1% | ≥0.85 | ≥0.90 | ||||||
| 2% | ≥0.90 | ||||||||
| Degree of Substituion(D.S) | 0.80-0.90 | ≥0.92 | ≥0.98 | ≥0.92 | |||||
| Purity(%) | According to customers request | ||||||||
| Clorides(NACL w/%) | ≤3.0 | ≤6.0 | ≤3.0 | ||||||
| Loss on drying(w/%) | ≤10.0 | ||||||||
| PH value | 6.5-8.5 | ||||||||
| Clorides(NACL w/%) | ≤0.5 | ||||||||