Focus on Cellulose ethers

HEC for dry-mix mortar

One of the commonly used additives in dry-mix mortar is hydroxyethyl cellulose (HEC). HEC is a non-ionic cellulose ether with thickening, water retention, stabilization, and suspension properties. It is widely used in building materials, especially in dry-mix mortar.

1. The role of HEC in dry-mix mortar

In dry-mix mortar, HEC mainly plays the role of water retention, thickening and improving construction performance:

Water retention: HEC has excellent water retention and can reduce water loss. This is especially important for dry-mix mortar because it prolongs the open time of the mortar, allowing workers to adjust the mortar over a longer period of time and improve construction efficiency. In addition, water retention can also reduce the risk of cracking and ensure that the mortar hardening process is more uniform and stable.

Thickening: The thickening effect of HEC gives the mortar a good viscosity, allowing the mortar to better adhere to the surface of the substrate during construction, not easy to slip, and improves the uniformity of the application. This characteristic is particularly important in vertical construction and can greatly improve the construction quality of the mortar.

Improve construction performance: HEC can make dry-mixed mortar smoother and easier to apply, thereby reducing the difficulty of operation. It makes the mortar have excellent spreadability and adhesion on the substrate, making construction more labor-saving and improving work efficiency. In addition, it can also increase the anti-sagging ability, especially in thick layer construction.

2. HEC selection criteria

When selecting HEC, factors such as its molecular weight, degree of substitution and solubility should be considered, which will directly affect the performance of the mortar:

Molecular weight: The size of the molecular weight affects the thickening ability and water retention effect of HEC. Generally speaking, HEC with a larger molecular weight has a better thickening effect, but a slower dissolution rate; HEC with a smaller molecular weight has a faster dissolution rate and a slightly worse thickening effect. Therefore, it is necessary to select a suitable molecular weight according to construction needs.

Degree of substitution: The degree of substitution of HEC determines its solubility and viscosity stability. The higher the degree of substitution, the better the solubility of HEC, but the viscosity will decrease; when the degree of substitution is low, the viscosity is higher, but the solubility may be poor. Generally, HEC with a moderate degree of substitution is more suitable for use in dry-mixed mortar.

Solubility: The dissolution rate of HEC affects the construction preparation time. For dry-mixed mortar, it is more ideal to choose HEC that is easy to disperse and dissolve quickly to improve the flexibility of construction.

3. Precautions when using HEC

When using HEC, you need to pay attention to its addition amount and usage conditions to ensure the best effect:

Addition amount control: The addition amount of HEC is usually controlled between 0.1%-0.5% of the total weight of the mortar. Excessive addition will cause the mortar to be too thick and affect the construction fluidity; insufficient addition will reduce the water retention effect. Therefore, the test should be carried out according to actual needs to determine the optimal addition amount.

Compatibility with other additives: In dry-mixed mortar, HEC is often used in combination with other additives such as redispersible latex powder, cellulose ether, etc. Pay attention to the compatibility of HEC with other ingredients to ensure that there is no conflict and affect the effect.

Storage conditions: HEC is hygroscopic, it is recommended to store it in a dry environment and avoid direct sunlight. It should be used as soon as possible after opening to prevent performance degradation.

4. Application effect of HEC

In practical application, HEC can significantly improve the construction performance of dry-mixed mortar and improve the overall quality of mortar. The thickening and water retention effect of HEC makes the dry-mixed mortar have good adhesion and stability, which not only improves the construction quality, but also prolongs the open time of the mortar, allowing workers to operate more calmly. In addition, HEC can reduce the occurrence of cracking on the surface of the mortar, making the hardened mortar more durable and beautiful.

5. Environmental protection and economy of HEC

HEC is an environmentally friendly cellulose derivative that is biodegradable and environmentally friendly. In addition, HEC is relatively moderately priced and cost-effective, making it suitable for widespread promotion and application in various types of construction projects. The use of HEC can reduce the water-cement ratio of mortar, thereby reducing water consumption, which is also in line with the current trend of green environmental protection in the construction industry.

The application of HEC in dry-mixed mortar can significantly improve the performance of mortar and is an indispensable additive in construction. Its good water retention, thickening and construction adaptability improve construction efficiency and make quality more stable. Selecting

the right HEC and using it properly can not only improve the construction quality, but also meet environmental protection and economic requirements.


Post time: Nov-01-2024
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