Jinzhou City Honghai Cellulose Co.,Ltd: 十二月 2020

2020年12月30日星期三

The Role of Cellulose Ether in Cement Mortar

In Construction Chemcial, only a little bit of cellulose ether can significantly improve the performance of wet mortar. It can be seen that cellulose ether is a major additive that affects the construction performance of mortar.

Choosing cellulose ethers of different varieties, different viscosities, different particle sizes, different degrees of viscosity and added amount will also have different effects on the improvement of the performance of dry mortar. At present, many masonry and plastering mortars have poor water retention properties, and water slurry separation occurs after a few minutes of standing still, so it is very important to add cellulose ether to cement mortar.

Let’s take a closer look at the role of cellulose ethers in cement mortar with the Chemical Hpmc manufacturer!

Cellulose ether-water retention

Water retention is an important performance of methyl cellulose ether, and it is also a performance that many domestic dry mortar manufacturers, especially those in areas with higher temperatures in the south, pay attention to. In the production of building materials, especially dry mortar, cellulose ether plays an irreplaceable role, especially in the production of special mortar (modified mortar), it is an indispensable and important part.

Cellulose Ether viscosity, content, environmental temperature and molecular structure have a greater impact on its water retention performance. Under the same conditions, the higher the viscosity of the cellulose ether, the better the water retention; the higher the content, the better the water retention. Usually, a small amount of cellulose ether can greatly increase the water retention rate of the mortar, and when the content reaches a certain level When the temperature is higher, the increasing trend of water retention rate slows down; as the ambient temperature rises, the water retention of cellulose ether usually decreases, but some modified cellulose ethers also have better water retention under high temperature conditions; fibers with lower substitution degree Plain ether has better water retention performance.

The hydroxyl group on the cellulose ether molecule and the oxygen atom on the ether bond will associate with the water molecule to form a hydrogen bond, so that free water becomes bound water, thereby playing a good water retention effect; the water molecule and the cellulose ether molecular chain Interdiffusion allows water molecules to enter the macromolecular chain of cellulose ether, and is subject to strong binding force, thereby forming free water, entangles the water, and improves the water retention of cement slurry; cellulose ether improves the fresh cement slurry The rheological properties, porous network structure and osmotic pressure or the film-forming properties of cellulose ether hinder the diffusion of water.

Cellulose ether-thickening and thixotropy

Cellulose ether gives the wet mortar excellent viscosity, can significantly increase the bonding ability of the wet mortar and the base layer, and improve the sag resistance of the mortar. It is widely used in plastering mortar, tile bonding mortar and external wall insulation system. The thickening effect of cellulose ether can also increase the anti-dispersion ability and homogeneity of freshly mixed materials, prevent material delamination, segregation and bleeding, and can be used in fiber concrete, underwater concrete and self-compacting concrete.

The thickening effect of cellulose ether on cement-based materials comes from the viscosity of the cellulose ether solution. Under the same conditions, the higher the viscosity of the cellulose ether, the better the viscosity of the modified cement-based material, but if the viscosity is too large, it will affect the fluidity and operability of the material (such as sticky plaster knife). Self-leveling mortar and self-compacting concrete, which require high fluidity, require low viscosity of cellulose ether. In addition, the thickening effect of cellulose ether will increase the water demand of cement-based materials and increase the output of mortar.

The high viscosity cellulose ether aqueous solution has high thixotropy, which is also a major characteristic of cellulose ether. The aqueous solution of methyl cellulose generally has pseudoplasticity and non-thixotropic fluidity below its gel temperature, but exhibits Newtonian flow properties at low shear rates. Pseudoplasticity increases with the increase of the molecular weight or concentration of cellulose ether, regardless of the type of substituent and the degree of substitution. Therefore, cellulose ethers of the same viscosity grade, whether it is MC, HPMC, or HEMC, always exhibit the same rheological properties as long as the concentration and temperature remain constant. When the temperature increases, a structured gel is formed, and high thixotropic flow occurs.

Cellulose ethers with high concentration and low viscosity exhibit thixotropy even below the gel temperature. This property is very beneficial to the construction of building mortar to adjust its leveling and sagging properties. It should be noted here that the higher the viscosity of the cellulose ether, the better the water retention, but the higher the viscosity, the higher the relative molecular weight of the cellulose ether, and the corresponding reduction in its solubility, which will have a negative impact on the mortar concentration and construction performance.

Cellulose ether-entraining effect

Cellulose ether has obvious air-entraining effect on fresh cement-based materials. Cellulose ether has both hydrophilic group (hydroxyl group, ether group) and hydrophobic group (methyl group, glucose ring). It is a surfactant with surface activity and air-entraining effect. The air-entraining effect of cellulose ether will produce a "ball" effect, which can improve the working performance of freshly mixed materials, such as increasing the plasticity and smoothness of the mortar during operation, which is beneficial to the paving of mortar; it will also increase the output of mortar. , Reduce the production cost of mortar; but it will increase the porosity of the hardened material and reduce its strength and elastic modulus and other mechanical properties.

As a surfactant, cellulose ether also has a wetting or lubricating effect on cement particles, which together with its air-entraining effect increase the fluidity of cement-based materials, but its thickening effect will reduce the fluidity. Cellulose ether has an effect on cement-based materials. The influence of fluidity is a combination of plasticizing and thickening effects. Generally speaking, when the content of cellulose ether is very low, it is mainly manifested as plasticizing or water reducing effect; when the content of cellulose ether is high, the thickening effect of cellulose ether increases rapidly, and its air-entraining effect tends to be saturated. Therefore, it has a thickening effect or an increase in water demand.

Cellulose ether-retarding effect

Cellulose ether will prolong the setting time of cement paste or mortar and delay the hydration kinetics of cement. This will help increase the operating time of freshly mixed materials, improve the consistency of mortar and the loss of concrete slump over time, but it may also Delay the construction progress.

2020年12月22日星期二

What Is the Difference Between Hydroxypropyl Methylcellulose and Guar Gum?

1. The differences between hydroxypropyl methylcellulose and guar gum are as follows:

The viscosity of Hydroxypropyl Methyl Cellulose is not as high as that of guar gum, and the thickening effect is not as good as that of guar gum. Guar gum is severely agglomerated with water and is difficult to stir. Sodium carboxymethyl cellulose Agglomeration is not serious when exposed to water, guar gum is not resistant to high temperatures, and sodium carboxymethyl cellulose can withstand high temperatures below 220 degrees.

2. Hydroxypropyl methylcellulose

Hydroxypropyl methylcellulose, also known as hypromellose, cellulose hydroxypropyl methyl ether, is made of highly pure cotton cellulose as raw material, and is specially etherified under alkaline conditions be made of.

(1) Main purpose:

① Polyvinyl chloride: Used as a dispersant in the production of polyvinyl chloride, and is the main auxiliary agent for the preparation of PVC by suspension polymerization.

② Construction industry: As a water-retaining agent and retarder of cement mortar, it makes the mortar pumpable. Used as a binder in plaster, plaster, putty powder or other building materials to improve spreadability and prolong operation time. It can be used as a paste tile, marble, plastic decoration, paste enhancer, and can reduce the amount of cement. The water retention properties of HPMC prevent the slurry from cracking due to drying too fast after application, and enhance the strength after hardening.

③ Ceramic manufacturing industry: widely used as a binder in the manufacturing of ceramic products.

④ Paint industry: As a thickener, dispersant and stabilizer in the paint industry, it has good compatibility in water or organic solvents. As a paint remover.

⑤ Ink printing: As a thickener, dispersant and stabilizer in the ink industry, it has good compatibility in water or organic solvents.

⑥ Plastic: used as mold release agent, softener, lubricant, etc.

⑦ Pharmaceutical industry: coating materials, film materials, rate-controlling polymer materials for slow-release preparations, stabilizers, suspending agents, tablet binders, and viscosity-increasing agents.

⑧. Others: This product is also widely used in leather, paper products, fruit and vegetable preservation and textile industries.

Hydroxypropyl Methylcellulose

3. Guar gum

Cationic guar gum is a water-soluble high molecular polymer, its chemical name is guar hydroxypropyl trimethyl ammonium chloride. It uses natural guar gum as a raw material to remove the epidermis and germs and the remaining endosperm part, which mainly contains galactose and mannose. After drying, crushing and pressurizing hydrolysis, it is precipitated with a 20% ethanol solution, centrifuged, dried, and lost water. Glycidyl ether trimethyl ammonium chloride reaction system.

(1) Performance

Solubility has outstanding dispersing ability in cold water and hot water, will not cause agglomeration, and improve the convenience of manufacturing and production operations. The compatibility of high salt and PH value can quickly expand and dissolve in a wide pH range, and it remains stable even in a system with high salt content. Due to the uniform distribution of nitrogen content, the chemical structure has more affinity than similar products, and has good compatibility with anions, zwitterions and surfactants, and can be used in various surfactant products.

(2) Purpose:

①. Paper additives

Studies have shown that guar gum can meet the zero-emission requirements of modern factories. It can maintain or improve the evenness of paper while improving paper retention and water filtration. It is a promising environmental protection additive.

2020年12月14日星期一

What Is Hypromellose?

Hypromellose is a kind of non-ionic cellulose mixed ether. It is a semi-synthetic, inactive, viscoelastic polymer. It is often used in ophthalmology as a lubrication department, or as an excipient or excipient in oral medicine. It is commonly found in various types of commodities. As a food additive, hypromellose can play the following roles: emulsifier, thickener, suspending agent and substitute for animal gelatin.

Dissolution method

1. All models can be added to the material by dry mixing;

2. When it needs to be added directly to the aqueous solution at room temperature, it is best to use the cold water dispersion type, and it usually takes 10-90 minutes to thicken after adding;

3. For ordinary models, first stir and disperse with hot water, then add cold water to stir and cool to dissolve;

4. If agglomeration and wrapping occurs during dissolution, it is due to insufficient stirring or the normal type is directly added to cold water. At this time, it should be stirred quickly.

5. If bubbles are generated during dissolution, they can be left to stand for 2-12 hours (the specific time is determined by the consistency of the solution) or removed by vacuum, pressurization, etc., or an appropriate amount of defoamer can be added.

Hypromellose

Application

Chemical Hpmc is used as thickener, dispersant, binder, excipient, oil resistant coating, filler, emulsifier and stabilizer in the textile industry. It is also widely used in synthetic resin, petrochemical, ceramic, paper, leather, medicine, food and cosmetics industries.

1. Construction industry: As a water-retaining agent and retarder of cement mortar, it makes the mortar pumpable. Used as a binder in plaster, plaster, putty powder or other building materials to improve spreadability and prolong operation time. It can be used as a paste tile, marble, plastic decoration, paste enhancer, and can reduce the amount of cement. The water retention properties of HPMC prevent the slurry from cracking due to drying too fast after application, and enhance the strength after hardening.

2. Ceramic manufacturing industry: widely used as a binder in the manufacturing of ceramic products.

3. Paint industry: As a thickener, dispersant and stabilizer in the paint industry, it has good compatibility in water or organic solvents. As a paint remover.

4. Ink printing: As a thickener, dispersant and stabilizer in the ink industry, it has good compatibility in water or organic solvents.

5. Plastic: used as mold release agent, softener, lubricant, etc.

6. Polyvinyl chloride: Used as a dispersant in the production of polyvinyl chloride, and is the main auxiliary agent for the preparation of PVC by suspension polymerization.

7. Others: This product is also widely used in leather, paper products, fruit and vegetable preservation and textile industries.

8. Pharmaceutical industry: coating materials; film materials; rate-controlling polymer materials for slow-release preparations; stabilizers; suspending agents; tablet binders; viscosity increasing agents.

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2020年12月6日星期日

Problems And Solutions Caused By HPMC In Putty Powder

Dry quickly. This is mainly the amount of ash calcium powder (too large, can appropriately reduce the amount of ash calcium powder in the putty formula) and the water retention rate of HPMC, and the drying degree of the wall.

Peel and roll. This is related to water retention rate, low HPMC viscosity is prone to this situation or add less.

The stripping of putty powder for interior walls. This and ash calcium powder added amount (the amount of ash calcium powder in the putty formulation too little or too low ash calcium powder purity, appropriate increase in ash calcium powder putty powder formula dosage), and also with the added amount of HPMC and quality, is embodied in the product on the water retention of water rate is low, ash calcium powder (calcium oxide in the ash calcium powder is not fully to the calcium hydroxide into hydration) didn't have enough time.

Blister. This and wall's dry humidity and flatness is concerned, also have a relation with construction at the same time.

There are needle points. This is related to HPMC, its poor film formation, but also the impurities in HPMC and gray calcium a slight reaction, if the reaction is severe, then the putty powder presents the state of bean curd residue.Cannot go up the wall, also do not have cohesive force at the same time, the product that added carboxymethyl class in cellulose additionally also appears this kind of circumstance.

Putty after drying easy to crack, yellow. This and ash of calcium powder add quantity concern much, of ash calcium powder add quantity much, bring about the increase of hardness after putty powder is dry, have hardness to have no flexibility only easy crack, especially when be subjected to external force more easy crack.It is also related to the high content of calcium oxide in ash calcium powder.