Wholesale Construction Fields Hpmc - Hydroxypropyl Methyl Cellulose (HPMC) Used for Tile adhesives – MEVA
Wholesale Construction Fields Hpmc - 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:
Normally customer-oriented, and it's our ultimate concentrate on for being not only one of the most dependable, trustable and honest supplier, but also the partner for our shoppers for Wholesale Construction Fields Hpmc - Hydroxypropyl Methyl Cellulose (HPMC) Used for Tile adhesives – MEVA , The product will supply to all over the world, such as: Roman, Honduras, Madras, Our company now has many department, and there have more than 20 employees in our company. We set up sales shop, show room, and product warehouse. In the meantime, we registered our own brand. We've got tightened inspection for quality of product.
By EliecerJimenez from Albania - 2017.02.28 14:19
The product classification is very detailed that can be very accurate to meet our demand, a professional wholesaler.
By Pearl from Kuwait - 2018.09.21 11:44