2022 High quality Hpmc Manufacturer - Hydroxypropyl Methyl Cellulose (HPMC) Used for Tile adhesives – MEVA
2022 High quality Hpmc Manufacturer - Hydroxypropyl Methyl Cellulose (HPMC) Used for Tile adhesives – MEVA Detail:
Better Workability
The shear-thinning and air-entraining properties of HPMC give modified tile adhesives a better workability, as well as higher work efficiency, from yield/coverage and faster tiling sequence stand points.
Improves Water Retention
We can improve water retention in tile adhesives. This helps increase final adhesion strength as well as prolong open time. Prolonged open time also leads to faster tiling rate as it allows the worker to trowel a larger area before setting the tiles down, as opposed to troweling the adhesive onto each tile before setting the tile down.
Provides Slip/Sag Resistance
Modified HPMC also provides slip/sag resistance, so that heavier or non-porous tiles do not slip down the vertical surface.
Increases Adhesion Strengths
As mentioned before, it allows the hydration reaction to complete farther, thus allowing higher final adhesion strength to develop
Note:Products can be customized according to customer needs.
Product detail pictures:
Related Product Guide:
We aim to find out quality disfigurement from the production and supply the best service to domestic and overseas customers wholeheartedly for 2022 High quality Hpmc Manufacturer - Hydroxypropyl Methyl Cellulose (HPMC) Used for Tile adhesives – MEVA , The product will supply to all over the world, such as: Zambia, Malta, Turkey, We'd like to invite customers from abroad to discuss business with us. We can present our clients with high quality products and excellent service. We're sure that we'll have good cooperative relationships and make a brilliant future for both parties.
By Nydia from Manila - 2018.09.29 13:24
This enterprise in the industry is strong and competitive, advancing with the times and develop sustainable, we are very pleased to have a opportunity to cooperate!
By Rose from Gabon - 2018.09.21 11:44