Tile Adhesive Chemical Additives Cellulose Ether HPMCDecember 4th 2023
With the development of dry mix mortar, the cellulose ether has become an important admixture for cement mortar. Cellulose ethers are used as thickeners and water retention additives in dry mix mortar applications.
The amount of cellulose ether (HPMC) added in dry mortar varies to some extent due to applied grades and construction requirements. In addition, due to the quality difference of cellulose ethers (HPMC) from different manufacturers, the user needs to adjust according to the product standards and construction performance requirements, their own test results shall prevail.
Based on SLEOCHEM cellulose ethers (HPMC), we listed the recommended dosages to common applications for reference.
1. Tile adhesive
Recommend dosage is between 0.2%~0.5%.
The SL-200K is at high viscosity, which can be at a lower dosage.
2. Grouts or Joint filler
Recommend dosage is between 0.05%~0.1%
3. Plastering mortar
Recommend dosage is between 0.15%~0.2%
4. Wall Putty
Recommend dosage is between 0.25%~0.4%
5. Self-leveling compounds
Recommend dosage is about 0.1%
6. Cement-based/Lime cement-based interface mortar
Recommend dosage is between 0.2%~0.3%
7. Repair mortars
Recommend dosage is about 0.1%-0.2%
8. Vitrified microbead thermal insulation mortar
Recommend dosage is about 0.3%-0.4%
9. EPS thermal insulation plastering mortar
Recommend dosage is about 0.6%-0.8%
10. EPS thermal insulation adhesive mortar
Recommend dosage is about 0.2%-2.5%
Generally, higher viscosities would potentially enable lower dosage rates at the same water retention level and subsequently lower formulation cost. However, viscosities of cellulose ethers in some applications should not be too high as they would have a negative impact on the stickiness of the mortar.
Some customers prefer to choose too low-priced cellulose ether products, but they ignored that low-priced cellulose ethers are often difficult to ensure stable product quality, and their dosage is even 1-2 times that of moderate-priced cellulose ethers, which cannot achieve the purpose of saving costs.