Cellulose Ether is an important type of chemical additive that is widely used in building materials, such as cement-based and gypsum-based dry mixes, tile adhesives, plastering mortars, self-leveling floors, etc. By introducing cellulose ethers, the properties of building materials can be significantly improved, including constructability, durability, water retention and crack resistance.
1. Improve water retention
Water retention is one of the important properties of building materials, especially mortar and cement, and is related to the strength development, constructability and durability of the material. Cellulose ether has high water-binding capacity and can form a water-retaining film in mortar or cement to reduce water loss. This characteristic plays a key role especially in dry environments or highly water-absorbent base construction. It effectively prevents water from rapidly evaporating or being absorbed by the base layer, ensuring that the hydration reaction of the material proceeds smoothly, ultimately making the hardened material stronger and denser. .
The molecular structure of cellulose ether contains a large number of hydrophilic hydroxyl groups, allowing it to combine with water molecules through hydrogen bonds. This water retention effect not only improves the operability during construction, but also extends the opening time and improves the adhesion of the material. At the same time, the enhanced water retention helps reduce the occurrence of cracks, especially in the early hardening stage, effectively inhibiting cracking caused by dry shrinkage.
2. Improve construction performance
Cellulose ethers significantly improve the construction properties of building materials, such as fluidity, water retention, sag resistance and operability time. For cement-based and gypsum-based materials, cellulose ethers can increase the viscosity of the slurry, making it easier to apply. At the same time, cellulose ether can also make the slurry have better thixotropy, maintain a certain viscosity in a static state, and flow easily when shearing force is applied. This feature makes it easier for construction workers to perform scraping and smearing operations, and reduces the falling and sagging of materials.
The presence of cellulose ethers makes the material open longer. This means that during the construction process, the slurry will not lose water too quickly and can maintain good operating performance. The construction personnel have enough time to make adjustments and corrections. Especially when constructing over a large area, it can significantly improve construction efficiency and Material uniformity.
3. Improve crack resistance and durability
Cracks in building materials are one of the important factors affecting their durability and aesthetics. Cellulose ethers can improve crack resistance in mortar. On the one hand, this is because cellulose ether enhances the water retention of the material and avoids early cracks caused by rapid evaporation of water and drying shrinkage. On the other hand, cellulose ether improves the bonding strength and cohesion of the material, giving the hardened material a better elastic modulus, thereby dispersing stress when it is subjected to stress, reducing stress concentration, and reducing the chance of cracks.
Cellulose ethers also improve the material’s durability, especially in terms of resistance to freeze-thaw cycles, carbonization and water erosion. Since cellulose ether improves the density of the material, the penetration ability of moisture and other corrosive substances is reduced, extending the service life of the material. In cold areas, the presence of cellulose ether can effectively reduce the entry of moisture into the material, thereby mitigating structural damage caused by freeze-thaw cycles.
4. Improve the adhesion of materials
Cellulose ethers can also enhance the bonding properties of building materials, especially in materials with high bonding requirements such as tile adhesives and plastering mortars. By adding cellulose ether, the cohesion and external adhesion of the material are improved. This can not only enhance the bonding force between the material and the substrate, but also improve the bonding force between the material surface and the facing materials (such as ceramic tiles and stones), making the overall structure stronger and more stable.
The addition of cellulose ether helps reduce material delamination. During the construction process, cellulose ether can improve the rheological properties of the slurry, make the particle distribution more uniform, prevent the separation of fine particles and coarse particles in the mortar, thereby ensuring the overall consistency and bonding performance of the material.
5. Enhance the anti-sag performance of materials
The anti-sag performance is particularly important for some materials used for vertical surface construction, such as plastering mortar, tile adhesive, etc. Cellulose ether can significantly improve the anti-sag performance of the material, making the mortar less likely to slip during vertical wall construction and maintaining good adhesion and shape stability. By adjusting the viscosity and rheological properties of the slurry, cellulose ether prevents the mortar from sagging due to gravity after scraping, ensuring construction quality and aesthetics.
6. Improve material flow and pumpability
In applications such as self-leveling mortars and pumpable concrete, cellulose ethers can significantly improve the flow and pumpability of the material. Self-leveling materials require good flow properties, and the addition of cellulose ether can make the slurry have good fluidity and spreadability while maintaining a certain viscosity, reducing the occurrence of bleeding and segregation. This feature also makes the material less likely to clog during the pumping process, improving construction efficiency, especially in large-scale construction or long-distance pumping.
As an important functional additive, cellulose ether plays an important role in building materials through its unique molecular structure and performance characteristics. From improving water retention, improving construction performance, enhancing adhesion, to improving crack resistance, durability and sag resistance, cellulose ethers provide effective solutions for improving the performance of modern building materials. With the continuous improvement of material performance requirements in the construction industry, the application prospects of cellulose ether will be broader.
Post time: Feb-17-2025