Methyl Hydroxyethyl Cellulose (MHEC) is a chemically modified cellulose ether. Its basic structure is a cellulose chain, and special properties are obtained by introducing methyl and hydroxyethyl substituents. MHEC is widely used in building materials, coatings, daily chemicals, pharmaceuticals and food.
1. Role in building materials
1.1. Water retention
In cement-based and gypsum-based materials, the main role of MHEC is to provide excellent water retention. MHEC can keep water from volatilizing easily, ensuring that cement or gypsum materials obtain sufficient water during the hardening process, thereby improving the hydration degree of cement and the crystallization degree of gypsum. This water retention performance plays an important role in preventing cracking caused by too fast drying, improving construction performance and surface quality.
1.2. Thickening and improving workability
MHEC also plays a thickening role in dry mortar, tile adhesive, putty and other products, improving the viscosity and plasticity of the material. This thickening effect helps improve construction performance, making the material easier to spread and adjust, improving coating performance and reducing slippage. In addition, the thickening effect of MHEC can also avoid sedimentation and sagging during construction, and improve the quality of the construction surface.
1.3. Increase bond strength
By adding MHEC to the formula, the bond strength of materials such as mortar and adhesive can be enhanced. During the hardening process, MHEC can form a mesh-like structure, which improves the structural strength of the material and thus improves the bonding performance. This is very important for ensuring the bonding effect of materials such as coatings and tiles with the substrate.
1.4. Improve anti-sagging
During the wall plastering process, MHEC can effectively prevent mortar from sagging, making the plastering layer thickness uniform and the surface smooth. In tile adhesive, it can also enhance the anti-slip performance of the adhesive, making the tiles less likely to shift during the paving process.
2. Role in coatings
2.1. Thickening and rheological modification
MHEC is used as a thickener in latex paints, oil paints and other coatings to adjust the rheological properties of the coating. It can keep the paint at a suitable viscosity, so that it has good leveling during construction and avoids sagging and brush marks. In addition, the thickening effect of MHEC can also make the paint have good storage stability when static.
2.2. Emulsification and stabilization
MHEC has a certain emulsification and stabilization effect. It can stabilize the pigments and fillers in the paint, prevent the pigments from settling and agglomerating, improve the stability and uniformity of the paint, and thus improve the quality of the coating.
2.3. Water retention and film forming
In the paint, the water retention effect of MHEC can delay the evaporation of water, increase the speed of film formation, ensure the density and uniformity of the film, and thus improve the durability and decorative effect of the film.
3. Role in daily chemical products
3.1. Thickening
In daily chemical products such as detergents, hand sanitizers, and facial cleansers, MHEC, as a thickener, can effectively increase the viscosity of the product and make the product texture thicker, thereby improving the use experience and application effect.
3.2. Stabilizer
MHEC also acts as a stabilizer in daily chemical products, which can stabilize suspended matter in the product, prevent precipitation and stratification, and keep the product uniform in quality during long-term storage.
3.3. Moisturizing and protecting
Due to the good water retention performance of MHEC, it can also provide moisturizing effect for daily chemical products such as skin care products, prevent skin moisture loss, and form a protective film on the skin surface to enhance the moisturizing and protective performance of the product.
4. Role in pharmaceuticals and food
4.1. Controlled release and coating
MHEC is often used as a coating material and controlled release agent for tablets in the pharmaceutical field. It can control the release rate of drugs, improve the durability and stability of drug efficacy, and improve the appearance and durability of tablets.
4.2. Thickening and stabilizing
In the food industry, MHEC is used as a thickener and stabilizer in various condiments, sauces, and dairy products to improve the taste and texture of food, prevent food stratification and precipitation, and extend the shelf life of food.
4.3. Food additives
As a food additive, MHEC is used to improve the extensibility, water retention and stability of dough, making the texture of baked goods such as bread and cakes softer and taste better.
5. Physical and chemical properties
5.1. Water solubility
MHEC can be dissolved in both cold and hot water to form a transparent, viscous solution. This water solubility makes it easy to disperse and use in a variety of applications.
5.2. Chemical stability
MHEC has good chemical stability, strong tolerance to acids, alkalis and salts, and is not easy to degrade, which makes it have a wide range of application prospects in various chemical products.
5.3. Biocompatibility
Since MHEC is a non-ionic cellulose ether, it has good biocompatibility and is non-irritating to the skin and human body, so it is widely used in daily chemicals and medicines.
As a functional cellulose ether, MHEC plays an important role in many fields such as building materials, coatings, daily chemicals, pharmaceuticals and food due to its excellent water retention, thickening, adhesion and chemical stability. Its wide application not only improves the performance and quality of products, but also provides important material support for technological progress and innovation in various industries.
Post time: Feb-17-2025