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Carboxymethyl Cellulose is an important water-soluble polymer widely used in various industrial fields. Its viscosity range is a key parameter that plays a crucial role in its performance and effectiveness in different application fields. Firstly, let's understand the basic characteristics and preparation methods of Sodium carboxymethyl cellulose. Carboxyl Methyl Cellulose is a derivative obtained by chemical modification of cellulose as raw material. It contains a large number of carboxymethyl groups in its molecular structure, which gives it excellent water solubility and rheological properties. The methods for preparing carboxymethyl cellulose mainly include acetic acid method and chloroacetic acid method, which obtain carboxymethyl cellulose through esterification reaction of raw materials. The viscosity range of CMC Carboxymethyl Cellulose actually refers to its flowability in aqueous solution. The viscosity requirements for Sodium Carboxymethyl Cellulose vary in different application fields. For example, in the food industry, Sodium CMC is often used as a thickener and stabilizer, and the required viscosity is usually high to ensure the consistency and taste of the product; In the pulp and paper industry, carboxymethyl cellulose is often used as a reinforcing agent and protective gel, and the required viscosity range may be relatively low to ensure good bonding with fibers. In the field of medicine, CMC Chemical also has important applications. It is often used as a coating agent and controlled-release agent for drugs to regulate the release rate and absorption performance of drugs. In this case, viscosity control is particularly crucial, taking into account not only the interaction between the drug and the fiber, but also factors such as dissolution and release rates in the body. Overall, the viscosity range of carboxymethyl cellulose is a rather complex issue, influenced by factors such as raw material selection, preparation process, solution concentration, pH value, and many other aspects. Therefore, in practical applications, it is necessary to determine the appropriate viscosity range based on specific needs and conditions, and to regulate and control it through appropriate methods and means. Only in this way can the excellent performance of carboxymethyl cellulose be fully utilized in various fields, achieving better application effects and economic benefits.

In modern mining production, beneficiation flotation technology plays a crucial role, affecting the extraction efficiency, quality, and environmental impact of ores. Sodium Carboxymethyl Cellulose SCMC, as an innovative flotation agent, not only exhibits excellent flotation performance, but also demonstrates its unique comprehensive advantages in multiple aspects. The stability and controllability of Carboxymethyl Cellulose play an important role in the flotation process. The carboxymethyl functional group in its molecular structure endows it with good dispersibility and stability, enabling it to maintain efficient performance under different flotation conditions. This stability means that Sodium CMC can provide consistent flotation performance in complex ore compositions and process variations, providing stable technical support for mining production. The low toxicity and environmental friendliness of CMC Polymer have brought significant advantages to mining production. Compared with traditional flotation agents, CMC Chemical does not contain toxic or harmful substances, does not pollute the environment, and reduces the difficulty and cost of wastewater treatment. This environmental characteristic meets the sustainable development requirements of modern mining and is also an important reason why many mining companies choose carboxymethyl cellulose sodium. The economic viability of CMC Powder in production and application is also very attractive. Due to its wide range of raw material sources, simple production process, and relatively low production costs, carboxymethyl cellulose sodium has a significant price advantage in the market. In the large-scale application of beneficiation flotation, this economic efficiency can effectively reduce beneficiation costs and improve the economic benefits of enterprises. Sodium carboxymethyl cellulose also has good adaptability and compatibility. It can synergize with other commonly used flotation agents and additives to form effective complexes, improving the efficiency and selectivity of flotation. This adaptability and compatibility provide more operational space and freedom of choice for mining production, which helps optimize the process flow and improve production efficiency. The comprehensive advantages of carboxymethyl cellulose sodium in mineral flotation are obvious. Its stable flotation performance, environmentally friendly characteristics, economic advantages, and good adaptability make it an indispensable flotation agent in modern mining. With the continuous advancement of mining technology and the increasing awareness of environmental protection, it is believed that the application of carboxymethyl cellulose sodium in the field of mineral processing and flotation will be further expanded and deepened, contributing greater strength to the sustainable development of the mining industry.

Sodium Carboxymethyl Cellulose used in drilling oil fields is a widely used chemical in the petroleum industry. It is modified from natural high polysaccharides and has good water solubility and degradability. In the process of oil drilling, drilling fluid is an important material used to cool the drill bit, reduce its wear, and maintain wellbore stability. Adding an appropriate amount of Sodium CMC to drilling fluid can effectively Carboxymethyl cellulose, as a new type of drilling fluid additive, has high solubility, good stability, and excellent thickening effect. CMC Polymer can be used in various types of drilling fluid systems, including freshwater, seawater, and high-density drilling fluid systems. At the same time, it also has excellent high temperature resistance, salt resistance, and acid alkali resistance, which can meet the high requirements of drilling operations. In addition, Carboxymethyl Cellulose also has good dispersibility and filtration control ability, which can effectively reduce solid particles in drilling fluid and maintain the stability of downhole formations. CMC Chemical can also improve the flushing efficiency of the drill bit and reduce the erosion of the wellbore by the drilling fluid, thereby extending the service life of the drill bit. When Sodium Carboxymethyl Cellulose SCMC is used for drilling oil fields, it has excellent thickening, lubrication, and wellbore stabilization abilities. Specifically, it can increase the viscosity and density of drilling fluid, improve the suspension of mud, prevent wellbore collapse and pollution, while also reducing mud loss and sedimentation. In addition, carboxymethyl cellulose sodium can reduce friction and wear during drilling, prolong equipment life, and reduce maintenance costs. Carboxymethyl cellulose sodium has excellent high temperature and salt resistance, and is suitable for various drilling processes and geological environments. In oilfield development, carboxymethyl cellulose sodium is widely used in horizontal wells, high-temperature wells, deep wells, offshore drilling and other scenarios, and has achieved good results and economic benefits.   In addition, our carboxymethyl cellulose sodium products undergo strict quality control and inspection to ensure compliance with international and industry standards, while providing comprehensive after-sales service and technical support to meet customers' various needs and requirements.

From the application of Carboxymethyl Cellulose, we can understand that it not only improves the quality of porcelain bodies and reduces damage, but also plays a good role in forming and evenly dispersing the slurry. To produce some porcelain, it is necessary to add some ingredients. Sodium Carboxymethyl Cellulose is an essential additive that must be used. This type of material is used in many fields. What is its application in porcelain bodies? 1. Improve the speed of embryo production and processing, and reduce cost and energy consumption; 2. There is no sediment after ignition, which does not harm the color of the blank; 3. The processing technology is practical and easy to operate, avoiding disadvantages such as rolling glaze and missing glaze; 4. The actual effect of de coagulation is that Sodium CMC can improve the flowability of glaze slurry, which is beneficial for the actual operation of glaze layer painting; 5. As an excipient for the billet, CMC Powder enhances the plasticity of the sludge, which is beneficial for the shaping of the billet; 6. Strong resistance to mechanical equipment damage, with minimal damage to large molecular chains during the entire process of ball mill and mechanical stirring; 7. As a billet enhancer, CMC Polymer enhances the flexural strength of the billet, improves its reliability, and reduces wear and tear rates; 8. Strong floating dispersibility, which can avoid the settlement of poor raw materials and paint slurry particles on the foundation, and make the mortar evenly dispersed; 9. Make the water in the billet evaporate evenly to avoid dryness and cracking. Especially suitable for large-sized floor tiles and glazed tiles, the actual effect is significant.

Sodium Carboxymethyl Cellulose is used as an excipient for porcelain bodies. plastic cement. synergist. Adding an appropriate amount of Sodium CMC to the blank can enhance its adhesive strength. The billet is easy to form, which increases the tensile and compressive strength by 2-3 times, improves the reliability of the billet, enhances the efficiency of porcelain, and reduces production costs in the middle and later stages. Due to the addition of CMC Chemical, the moisture in the billet evaporates evenly, avoiding dryness and cracking. Especially in large-sized floor tiles and glazed tiles, the actual effect is more significant; b. The application of porcelain glaze: CMC Polymer is a good thickener and adhesive. When used as a base glaze, it can enhance the adhesion between the glaze slurry and the body, keep the glaze in a very stable separation state, increase the interfacial tension of the glaze, prevent water from spreading from the glaze to the body, and improve the glossiness of the glaze; Hansstar CMC is a good suspension agent. Thickening agents and adhesives used in surface glazes can improve the interfacial tension of the glaze body, keeping it in a very stable separation state, avoiding water from spreading from the glaze to the body, preventing a decrease in compressive strength of the glaze thick body, causing cracking during transportation, packaging and printing, and reducing needle hole conditions after the glaze layer dries. Less commonly used in raw materials, the actual effect of improving the plasticity of mortar and the flexural strength of raw materials is significant; Excellent ignition damage, with no residue left after ignition; Capable of floating and dispersing, avoiding the aggregation of positive and negative raw material particles; Strong resistance to mechanical equipment damage, with minimal damage to large molecular chains during the entire process of ball mill and mechanical stirring. When applying glaze slurry, the viscosity of the glaze slurry can be adjusted to give it good thixotropy, which is beneficial for glaze application; Enhance the compositional characteristics of the glaze; Improve the compressive strength of semi-finished processed glaze to avoid glaze application; Adjust the drying time of the glaze surface to make the glaze layer smooth and improve the reliability of the glaze slurry. CMC is used as an excipient for porcelain bodies. plastic cement. synergist. Adding an appropriate amount of CMC to the blank can enhance its adhesive strength. The billet is easy to form, which increases the tensile and compressive strength by 2-3 times, improves the reliability of the billet, enhances the efficiency of porcelain, and reduces production costs in the middle and later stages. Due to the addition of CMC, the moisture in the billet evaporates evenly, avoiding dryness and cracking. Especially in large-sized floor tiles and glazed tiles, the actual effect is more significant; b. The application of porcelain glaze: CMC is a good thickener and adhesive. When used as a base glaze, it can enhance the adhesion between the glaze slurry and the body, keep the glaze in a very stable separation state, increase the interfacial tension of the glaze, prevent water from spreading from the glaze to the body, and improve the glossiness of the glaze; Eagle CMC is a good suspension agent. Thickening agents and adhesives used in surface glazes can improve the interfacial tension of the glaze body, keeping it in a very stable separation state, avoiding water from spreading from the glaze to the body, preventing a decrease in compressive strength of the glaze thick body, causing cracking during transportation, packaging and printing, and reducing needle hole conditions after the glaze layer dries.

Physical and chemical properties: 1. Appearance: Instant Carboxymethyl Cellulose is a white or off white fibrous or granular powder, odorless. Characteristic: CMC Polymer is almost insoluble in anhydrous ethanol, ether, and acetone. In the hot water of 80~90>℃, it is flexible, loose and swollen, and rapidly dissolved after cooling. The aqueous solution is properly stable at room temperature, and can gel at high temperature, and this gel can change with the concavity and convexity of the temperature and the solution. Sodium CMC has excellent wetting, dispersibility, adhesion, thickening, emulsifying, water retention, film-forming properties, as well as impermeability to oils and fats. The film formed has excellent resistance, flexibility, and transparency. Due to its non-ionic nature, it can be compatible with other emulsifiers, but it is prone to salt precipitation and the solution is stable within the pH range of 2-12 Visual density: 0.30-0.70g/cm3, with a density of approximately 1.3g/cm3. Dissolving method: Instant Sodium Carboxymethyl Cellulose >The product is directly added to water, which will cause coagulation and then dissolve, but this dissolution is slow and difficult. The following three dissolution methods are proposed, and users can choose the most convenient method based on their application: 1. Hot water method: Because CMC Chemical does not dissolve in hot water, it can be evenly dispersed in the hot water in the early stage. Then, when cooling, two typical methods are described as follows: 1) Put the required amount of hot water into the container and heat it to about 70 ℃. Gradually participate in CMC while mixing, starting with CMC Powder floating on the surface of water and gradually forming a slurry. Cool the slurry while mixing. 2) Add 1/3 or 2/3 of the required amount of water into the container and heat it to 70 ℃. Follow the method in 1) to disperse MC and prepare a hot water slurry; Then add the remaining amount of cold or ice water to the hot water slurry, mix and cool the mixture. Powder mixing method: Instant carboxymethyl cellulose sodium powder particles are mixed with equal or larger amounts of other powdered ingredients through dry mixing to fully disperse, and then dissolved in water. At this point, CMC can dissolve without agglomeration. 3. Organic solvent wetting method: CMC is pre dispersed or wetted with organic solvents such as ethanol, ethylene glycol, or oil, and then dissolved in water. At this point, CMC can also dissolve smoothly.

The Sodium Carboxymethyl Cellulose SCMC series products independently developed by Hansstar for papermaking have the advantages of stable viscosity, low addition amount, and excellent processing performance. The company has developed ultra-low viscosity, high substitution Carboxymethyl Cellulose series products according to the needs of special paper enterprises in the papermaking industry to meet the special needs of various users. Carboxymethyl Cellulose, abbreviated as CMC, is an anionic polymer with an ether bond structure made from cellulose as the main raw material, after alkalization and ultrafine treatment, and then subjected to multiple chemical reactions such as crosslinking, etherification, and acidification. Non toxic, odorless, and odorless, with good water retention. Characteristics and functions of Papermaking Grade CMC This product has the characteristics of high ether and low viscosity, and can be used as a paper smoothing agent, sizing agent, and water retaining agent. Improving the water retention value of coatings and preventing adhesive migration is one of the important factors in improving coating efficiency and quality. The water retention value of coatings directly affects the reasonable degree of adhesive migration within the coating system. Improve the rheological properties of coatings and increase the solid content of coatings This product has good rheological and leveling properties, as well as the ability to adjust paint viscosity. The use of coating specific CMC Polymer can increase the solid content of coatings. And it can ensure a good coating effect of the coating. Reduce usage costs and improve efficiency As a water retaining agent applied in coatings, it directly reduces the cost of use. The application of CMC Chemical can increase the solid content of coatings, reduce the moisture content of wet coatings, reduce drying load, effectively improve vehicle speed, improve production efficiency, and reduce production costs. ● Other performance CMC serves as a carrier for whitening agents in coatings, and can play a role in dispersion, lubrication, and reducing dissolution time and scraper wear during coating use.

Sodium Carboxymethyl Cellulose referred to as cmc, is a water-soluble polymer compound with excellent viscosity stability and dispersion, which is often used in food, medicine and other fields. However, in recent years, people have begun to discover the potential application value of Carboxymethyl Cellulose in building materials. Its excellent thickening, dispersibility and regulating effect on the flow of cement slurry make Sodium carboxymethyl cellulose become a new additive which is expected to improve the performance of cement. Proper addition of CMC Carboxymethyl Cellulose can significantly improve the fluidity and working performance of cement slurry, reduce the water consumption of cement, improve the permeability resistance and crack resistance of concrete, and thus enhance the mechanical properties and durability of concrete. In addition, Sodium CMC can also reduce the shrinkage rate of cement slurry and reduce the risk of shrinkage cracks of concrete, which is of great significance for improving the service life and safety of buildings. However, although the application effect of Carboxylic Methyl Cellulose in cement is widely recognized, its application in engineering practice still faces some challenges. For example, the amount and ratio of CMC Chemical need to be precisely controlled, and too high or too low the amount of addition may affect the performance of concrete; In addition, the price of CMC Powder is relatively high, which may increase the cost of construction. Therefore, in the actual project, it is necessary to comprehensively consider the performance, cost and engineering requirements of carboxymethyl cellulose and other factors, and reasonably select the addition amount and ratio to maximize its advantages. As a new cement additive, carboxymethyl cellulose has a broad application prospect and development space. Through reasonable control of the addition amount and ratio, the performance of cement and concrete can be effectively improved, the quality and durability of buildings can be improved, and the sustainable development of the construction industry can be promoted. However, in the process of promotion and application, it is still necessary to further strengthen the research and practice to solve the problems that may be encountered in practical engineering, and promote the wide application of carboxymethyl cellulose in the field of building materials.

Instant Sodium Carboxymethyl Cellulose Physical and chemical properties: 1. Appearance: instant sodium carboxymethyl cellulose is white or yellowish fibrous or granular powder, odorless. Properties: MC is almost insoluble in anhydrous ethanol, ether and acetone. In the hot water of 80~90 ℃ > disperse, swell, quickly dissolve after cooling, the aqueous solution is properly stable at room temperature, can gel at high temperature, and the gel can change with the temperature of the concave and convex solution. It has excellent wettability, dispersion, adhesion, thickening, emulsification, water retention and film formation, and impermeability to grease. The film has excellent tolerance, flexibility and clarity, because it is non-ionic, it can be compatible with other emulsifiers, but it is easy to salt-out, and the solution is stable in the range of PH2-12. Apparent density: 0.30-0.70g/cm3, density about 1.3g/cm3. Solution: Instant Sodium CMC > The product directly participates in the water, agglutination will occur, and then dissolves, but this dissolution is very slow and difficult. The following advocate three dissolution methods, the user can choose the most convenient method according to the application: 1. Hot water method: Because CMC Polymer is not dissolved in hot water, the initial MC can be evenly dispersed in hot water, and then when cooling, two typical methods are described as follows: 1). Fill the container with the required amount of hot water and heat it to about 70 ° C. The CMC Powder is gradually joined in the gradual mixing, the CMC Polymer begins to float on the surface of the water, and then gradually forms a slurry, and the slurry is cooled under the mixing. 2). Take 1/3 or 2/3 of the required amount of water in the container, and heat it to 70℃, according to 1), disperse MC, and prepare hot water slurry; Then add the remaining amount of cold or ice water to the hot slurry, mix and cool the mixture. Powder mixing method: The instant sodium carboxymethyl cellulose powder particles and the same or more of other powdered ingredients, after dry mixing to fully diffuse, and then add water to dissolve, then the CMC can be dissolved at the moment, without agglutination. 3. Organic solvent wetting method: the CMC with organic solvents, such as ethanol, ethylene glycol or oil in advance to disperse or wet, and then add water to dissolve, then the CMC Carboxymethyl Cellulose can be successfully dissolved at this moment. Instant CMC and regular CMC both are available.Welcome to send enquiry!

In the production process, Hansstar selects high-quality natural cellulose raw materials, and converts cellulose into high-viscosity Sodium Carboxymethyl Cellulose through a strict chemical reaction process. This process requires precise control of temperature, time and reaction conditions to ensure uniformity and high viscosity of the product. The final product is filtered, dried and crushed many times to ensure its purity and fineness to meet the various needs of customers. High viscosity CMC Chemical is widely used in various industries. The following are the main application areas: Food industry: High viscosity CMC Powder as a thickener, stabilizer and emulsifier, widely used in beverages, dairy products, ice cream, jam, bread and pastries and other foods. It can improve the taste and texture of food, extend the shelf life, and improve the stability of the product. Pharmaceutical industry: In the pharmaceutical industry, high-viscosity CMC Polymer is used to manufacture pharmaceuticals such as tablets, suspensions and creams. As a drug carrier, it can improve the solubility and bioavailability of drugs and enhance the efficacy of drugs. Daily chemical industry: In daily chemical products such as shampoo, body wash, toothpaste and facial masks, high-viscosity CMC plays a role in thickening, moisturizing and stabilizing, improving product performance and appearance. Paper industry: High-viscosity CMC is used as a dispersing agent for pulp and a strengthening agent for paper in the paper making process, which can improve the strength and uniformity of paper and improve the printing effect. Textile industry: In the textile industry, high-viscosity CMC as a textile slurry, can improve the strength and wear resistance of yarns, improve the feel and luster of fabrics. Construction industry: High-viscosity CMC is used as a thickener and binder in building materials such as tile glue, putty powder and paint, which can improve construction performance and bond strength. Oil drilling: In the process of oil drilling, high-viscosity CMC as a thickening agent and stabilizer of drilling fluid, can improve the sand carrying capacity of drilling fluid, prevent wall collapse, and ensure the smooth progress of drilling operations. High viscosity Sodium Carboxymethyl Cellulose SCMC, as a multi-functional chemical, has shown wide application prospects in various industries. In addition to its traditional application fields, the development of modern science and technology has made high-viscosity CMC also applied and explored in emerging fields. Medical health field In recent years, the application of high viscosity CMC in the medical and health field has gradually attracted attention. Its application as a sustained-release agent and thickener in pharmaceutical preparations is increasing. For example, in the manufacture of pharmaceutical capsules and tablets, high-viscosity CMC can regulate the release rate of drugs, extend the duration of drug effects, and improve the bioavailability and efficacy of drugs. In addition, it can also be used to prepare medical devices such as artificial tears and oral cleaners, improve their use experience and effect, and provide technical support for health management. 1. New material research and development With the development of materials science, high-viscosity CMC, as a functional material, has a broad application prospect in the field of new material research and development. For example, in the preparation of nanomaterials, high-viscosity CMC can be used as a stabilizer and dispersant to help the uniform dispersion and stable fixation of nanoparticles, thereby improving the performance and application stability of new materials. In the research of smart materials and biomaterials, the regulability and biocompatibility of high-viscosity CMC make it an important research object, which is expected to bring new breakthroughs in future material science and technology innovation. 2. Intelligent technology application With the rapid development of smart technology, high-viscosity CMC, as a part of smart materials, is being introduced into smart coatings, smart textiles and smart packaging materials. For example, combined with the high viscosity properties and water solubility of CMC, smart coatings with self-healing functions can be prepared for automotive finishes and architectural coatings, extending their service life and improving environmental adaptability. In smart textiles, CMC can be used as part of a functional coating to enhance the antibacterial, waterproof and soft properties of the fabric, improving wearing comfort and service life. In terms of smart packaging materials, CMC's high viscosity and stability can improve the sealing and preservation effect of packaging materials, which is used in the field of food, medicine and cosmetics packaging.

Poly anioniccellulose (PAC) is a water-soluble cellulose ether derivative made by chemical modification of natural cellulose. It is an important water-soluble cellulose ether. It is a white or yellowish powder, non-toxic and tasteless, and can be dissolved in water. Strong antibacterial activity. The mud fluid prepared by the product has good water loss, inhibition and high temperature resistance. It is widely used in oil drilling, especially in salt Wells and offshore oil drilling. Polyanionic Cellulose belongs to ionic cellulose ether and has the characteristics of high purity, high degree of substitution and uniform distribution of substituents. PAC can be used as thickening agent, rheological regulator, water loss reducer, etc. Suitable for any mud from fresh water to saturated salt water. · Low-viscosity PAC can effectively reduce filtration loss without significantly increasing system mucus, especially in systems with high solid content. · High viscosity PAC has high pulp production capacity and obvious water loss reduction effect. Especially suitable for low solid phase mud and solid phase free salt water mud. · The mud fluid formulated by PAC inhibits the dispersion and expansion of clay and shale in a high salt medium, thus controlling wellbore contamination. · Excellent mud drilling fluid and workover fluid, as well as efficient fracturing fluid. Application of PAC 1, the application of PAC in drilling fluid. PAC is ideal for use as an inhibitor and fluid loss reducer. The mud fluids formulated by PAC inhibit the dispersion and expansion of clay and shale in highly saline media, thus controlling wellbore contamination. 2. Application of PAC in workover fluid. Workover fluid prepared with PAC is low solid phase, which will not block the permeability of the production zone due to solids, and will not damage the production zone. Moreover, poly anionic cellulose pac has a low water loss, so that the water entering the production layer is reduced, and the water entering will form a water town phenomenon due to the blockage of the emulsion. Workover fluids formulated with PAC provide advantages not found in other workover fluids. Protect the production layer from permanent damage; Carry the ability to clean the hole and reduce the amount of work required to maintain the hole; It has the ability to resist water and sediment infiltration, and rarely bubbles; It can be stored or used from well to well, and the cost is lower than that of ordinary mud workover fluid. 3. Application of PAC in fracturing fluid. The fracturing fluid prepared with PAC can withstand 2%KCI solution (which must be added when preparing fracturing fluid) and has good solubility, easy to use, can be prepared on site, and has fast gumming speed and strong sand carrying capacity. When used in low osmotic pressure formation, the fracturing effect is more excellent.

The incense and mosquito repellent incense do not need to introduce too much, the incense has a long history, as long as three thousand years, mosquito repellent incense since 1880 invention has a history of more than one hundred years, until now has been a family insect repellent and mosquito-killing weapon. Here we take mosquito-repellent incense as an example to explain the application of Sodium Carboxymethyl Cellulose SCMC in incense making. Mosquito-repellent incense used to appear in thin rods, called thread incense, and now it is mostly spiral, which is also commonly seen on the market. The total length is about 130CM, and it can burn for 7-8 hours, and the combustion temperature can reach 700-800℃. The adhesive material of mosquito repellent incense is usually selected elm bark powder, sticky wood powder, α-starch, the amount of which accounts for about 16% of the total base material. Among them, the plant powder often uses cedar powder, pine powder, pyrethrum flower residue powder, coconut powder. With the development of China's economy, people's living standards are increasing, the coil mosquito coil has gradually to the electric mosquito coil and electric liquid mosquito coil over, but because the coil mosquito coil has the advantage of low price, and by the environment, customs, regional and other factors, the coil mosquito coil will have a great space for development in the future. Therefore, in order to expand the market to a greater extent, we must improve product performance and improve quality. Carboxymethyl Cellulose is made from refined cotton processing, tasteless, with good thickening, suspension, emulsification, water retention, bonding characteristics, is the ideal alternative to traditional bonding materials. Its main functions in the production of mosquito-repellent incense are: (1) Sodium CMC can better improve the fineness distribution of the surface of the mosquito-repellent incense, so that the internal tightness of the mosquito-repellent incense is evenly distributed, and the good thickening property enhances the strength of the mosquito-repellent incense, so that the toughness of the mosquito-repellent incense is not easy to break. (2) Good emulsification, increase the flatness of the incense billet, the incense billet is full and round without prickly corners, improve the appearance of mosquito coil incense. (3) Good suspension effect, the distribution of pyrethrin efficacy is uniform, and the release effect of the drug power is improved. (4) Here to say the recommended amount of CMC Powder in the production process of mosquito repellent incense, generally accounting for 0.5%-1.5% of the base material, can effectively reduce product costs. In recent years, with the advantages and defects of CMC Polymer products mixed, making the market price chaos phenomenon, inferior sodium carboxymethyl cellulose products high sodium salt content, more than a certain proportion will play a flame retardant role, seriously affect the normal use of mosquito coil, so the choice of products must be strictly controlled quality. In view of this situation, sodium carboxymethyl cellulose manufactured by HANSSTAR is widely used in worldwide incense making industry.

Sodium Carboxymethyl Cellulose is widely used in domestic and foreign battery manufacturing industry as a binder for the negative electrode material of water-based system. The optimal amount of adhesive can obtain a larger battery capacity, a longer cycle life and a lower internal resistance. According to the special performance requirements of the production process and product use in the battery industry, Hansstar has continuously improve and launch a new generation of battery-grade CMC. The role of Sodium CMC in batteries: 1, improve the stability and fluidity of non-water-soluble materials dispersed in solution; 2, the negative active material and conductive agent play a dispersion role; 3, bonding protective active substance; 4, prevent precipitation of active substances; 5, stable electrode processing performance, and improve battery charging and discharging performance; 6, stabilize the structure of the pole sheet, improve the peeling strength of the pole sheet. Hansstar CMC Chemical product features: 1. Improve slurry settlement Compared with other CMC slurry stability is significantly improved, continuous observation for 72h static test, stability changes are small. 2, good penetration rate Hansstar CMC has fewer impurity particles and almost no insoluble matter after dissolution. 3, solve the pole sheet cracking Compared with other CMC, Hansstar CMC pole sheet has better softness and can solve the cracking problem well. 4, reduce the surface defects of the pole sheet Strict control of solid insoluble matter can solve the pole plate defects caused by CMC. 5, low amount of addition The addition amount ranges from 0.8% to 1.5%, and users can choose different models according to the dispersion effect. 6. Good compatibility of products It can be used with SBR, PAA and other materials.

In the production of ceramic wall tiles, adding Sodium CMC to ceramic body is an effective measure to improve the strength of the body, especially the floor tiles containing more poor materials, CMC Polymer role is particularly obvious. Nowadays, with the increasing scarcity of high-quality clay resources, the application of body strengthening agents is more practical. First, the new generation of billets use Sodium Carboxymethyl Cellulose as a new polymer billet reinforcement agent, the molecular spacing is large, the molecular chain is easy to move, the ceramic sand will not thicke, when the sand spray drying, the molecular chain is connected to each other, resulting in a network structure, the billet powder into the network structure, bonded together, play the framework effect, significantly improve the strength of the billet. It effectively solves the shortage of lignin reinforcing agents widely used at present: it seriously harms the fluidity of sand slurry and is sensitive to drying temperature. Note: The performance test of this product should be made as a sample, and the specific strength should be measured after drying, and the viscosity (or flow rate) in the solution can not be measured as the traditional hydroxyl group to measure its strengthening effect. Carboxy Methyl Cellulose characteristics The appearance of CMC Chemical is white powder, easy to dissolve in water, non-toxic and tasteless, stored in the air will absorb nutrients, but does not affect its performance. The permeability is good, the dosage is small, the enhancement effect is obvious, especially before drying, Sodium carboxymethyl cellulose can significantly improve the strength of the billet, reduce the damage of the billet, and will not form bad in the floor tile. When the temperature reaches 400~6000, the C reinforcer carbonizes and loses, and has no negative effect on the final characteristics. The addition of sodium CMC of carboxymethyl cellulose has no negative effect on the fluidity of sand slurry, and there is no need to change the original production process, and the operation is simple and practical. For raw materials with high content of raw materials (such as super white glaze tiles, polycrystalline micro-powder tiles, etc.). It can increase the amount of sodium CMC of carboxymethyl cellulose, and has little effect on the fluidity of sand slurry. CMC operation method: The amount of CMC Powder added to the new generation of ceramic billet is generally 0.01~0.18%(compared with the ball grinding dry material), that is, one ton of dry material plus ceramic billet plus sodium CMC0.1 ~ 1.8KG, the strength of green and dry billet can be increased by more than 60%. The specific amount can be determined by the customer according to the product. 2) Add the ball mill with the powder in the ball mill. You can also add it to the mud pool. Applied to ceramic printing glaze Good solubility, high solution transparency, almost no indispensable, with excellent cutting dilution and lubrication, can greatly improve the printing adaptability of the printing glaze and post-processing effect, CMC ceramic printing glaze has a better thickening, dispersion and stability: Good printing rheology to ensure smooth printing; The printing pattern is clear and the tone is consistent; The solution has high fineness, good lubricity and good use experience; Water dissolves well, almost all soluble matter, no stick net, no blocking net; The solution has high transparency and strong permeability. Excellent cutting dilution, greatly enhance the printing adaptability of printing glaze;

When it comes to toothpaste, the daily necessities of daily life, toothpaste is a multi-component distributed management system, which is composed of a variety of ingredients, including friction agent, water retention agent, viscosifier, styrofoam, fragrance and water, which is very important for toothpaste, its compressibility is enough to make the toothpaste resist the impact of the outside world, so that the toothpaste skeleton can be well formed. And the skeleton is fixed on the brush hair, this good pseudoplasticity makes the toothpaste has excellent dispersion, not sticky when brushing mouthwash, and for sodium carboxymethyl cellulose, the greater the viscosity, the longer the relative molecular structure chain, the easier its molecular structure is to coil in the middle, the lower the degree of substitution, so that it can better form a three-dimensional porous structure. Toothpaste grade CMC has excellent matching properties in toothpaste, so that the toothpaste ingredients are evenly mixed; Toothpaste has excellent formability to keep the toothpaste fine and smooth; In the toothpaste storage process, the paste does not divide water, does not shelled, does not return rough. Characteristics of Sodium CMC for toothpaste: CMC Polymer has strong thixotropy and compressibility, good reliability, moderate viscosity, and can give the toothpaste a particularly comfortable taste; Alkaline resistance: capable of PH 2-4 range; Salt resistance: CMC Powder can be mixed with various carbonates, and it is not easy to change the viscosity with time and produce significant solubility; High temperature resistance: excellent temperature stability and good temperature resistance effect; High clarity: Because of the symmetry of substitutes, less dispersed chemical fibers, high clarity of the paste; 6, anti-microbial strains have strong working ability: because the substitutes are symmetrical, the paste has good anti-enzyme performance; 7. Good ratio with various raw materials in toothpaste, fine paste, good appearance and whole performance; 8, do not divide the water town, moult the shell, do not hair rough.9, the paste extrusion molding dispersion is good; Ensure the reliability of the paste storage in the pipeline, extend the shelf life of the product; Any demand of Carboxymethyl Cellulose,welcome to contact Hansstar team.

Sodium Carboxymethyl Cellulose used in mining flotation With the decrease of mineral resources and the decline of ore grade, the progress and innovation of flotation technology becomes particularly critical. Under this background, Carboxymethyl Cellulose, as a new flotation agent, has gradually attracted wide attention in the mining industry. Its application in beneficiation flotation not only reflects its superiority in separation technology, but also shows its contribution to environmental friendliness and sustainable development. First, sodium carboxymethyl cellulose showed superior flotation performance in flotation process because of its special chemical structure. Due to its good interfacial activity and dispersibility, sodium carboxymethyl cellulose can be quickly adsorbed on the ore surface to form stable colloidal particles. This not only enhances the binding force of the ore and flotation agent, but also improves the selectivity of flotation, making it easier for the target mineral to react with the flotation agent, thus achieving effective ore separation. In practical applications, sodium carboxymethyl cellulose can adapt to a variety of different ores and process requirements. No matter sulfide ore, oxidized ore or heavy metal ore, good flotation effect can be achieved through suitable formula and flotation conditions. This versatility and flexibility make sodium carboxymethyl cellulose an ideal choice in the flotation process of beneficiation, which provides a strong support for the development of mining. Secondly, sodium carboxymethyl cellulose also performs well in improving ore recovery and improving ore grade. Due to its ability to form stable colloidal complexes with specific ores, valuable minerals can be recovered more effectively during the extraction process, while also improving the grade of ores. This not only helps to improve the economic value of the ore, but also reduces the production cost in the process of beneficiation and improves the economic benefit of the mining industry. In addition to its superiority in technical performance, CMC Polymer also performs well in environmental protection. Because it does not contain toxic or harmful substances and is pollution-free to the environment, the use of sodium carboxymethyl cellulose in the flotation process of mineral processing can effectively reduce the content of organic matter and heavy metals in wastewater, and reduce the negative impact on the environment. This environment-friendly characteristic makes it favored by more and more mining enterprises, and also meets the requirements of sustainable development of modern mining industry. The application of CMC Chemical in flotation of mineral processing has obvious advantages and potential. Its superior flotation performance, high recovery rate, environmental friendly characteristics and multi-functional application range make it an ideal choice in the flotation process of beneficiation. With the continuous progress of technology and widespread application, it is believed that sodium carboxymethyl cellulose will have a wider application and greater development space in the field of flotation in mineral processing.

I have noticed that the whole country is paying great attention to how to accelerate the formation of new quality productive forces. General Secretary Xi Jinping pointed out: "Integrate scientific and technological innovation resources, lead the development of strategic emerging industries and future industries, and accelerate the formation of new quality productivity." "We will actively foster strategic emerging industries such as new energy, new materials, advanced manufacturing, and electronic information, and nurture industries of the future, accelerate the formation of new quality productive forces, and strengthen new driving forces for development." Hansstar Technology Taixing Co., LTD., Hansstar Texture Ingredient Taizhou Co., LTD., as a high-tech enterprise, has been paying attention to, engaged in, cultivating emerging industries and future industries, accelerating the formation of new quality productivity, and enhancing the development of new momentum. "Emerging industry" and "future industry" are two industrial forms in different stages. "Emerging industry" is a new economic industry that has emerged with the birth and application of new scientific research results and emerging technologies, while "future industry" is an industrial form that is driven by cutting-edge technologies in the exploratory period and is still in the embryonic stage or incubation stage and full of development vitality and market potential. Both have the characteristics of active innovation, technology-intensive, and higher efficiency, which not only bring an indispensable and powerful driving force for scientific and technological innovation, but also continue to give birth to new industries, new models, and new drivers of scientific and technological innovation, and provide an important carrier and huge space for the development and growth of new quality productivity. As far as Hengda's product structure, product varieties and operation quality are concerned, we are taking the development path of "innovation, foresight and high quality", and the products Sodium Carboxymethyl Cellulose sodium SCMC and Polyanionic Cellulose PAC have a high market share in China, and have a wide visibility and good reputation in the same industry in the country. The "Government Work Report" takes the development of new quality productivity as the first of the ten major tasks in 2024, which shows the importance of accelerating the formation of new quality productivity. As a kind of productivity, the key is "new" and the core is "quality". As a private entrepreneur, in the future work, we must continue to do a good job of innovation. Innovation is the first driving force for development. Over the past decade or so, from the central to the local, a series of policies to encourage innovation and support innovation have been introduced and implemented, effectively stimulating the enthusiasm of the whole society to participate in innovation and promote innovation. We must continue to grasp the key point of quality. "Quality" is excellent, that is, high quality, high efficiency, high efficiency, promoting quality with new, improving quality with new is the core. The main front of new quality productivity is representative emerging industries and future industries, such as low-altitude economy, artificial intelligence, biopharmaceutical and so on. At the same time, it is necessary to more effectively transform and upgrade traditional industries, change the mode of production, profoundly adjust and optimize the industrial structure, seek truth from facts, do solid work, maintain perseverance, and make solid efforts to promote high-quality development and steadily carry out modernization as the main theme. Hansstar is a high-tech enterprise specializing in the research, development, production and sales of Carboxymethyl Cellulose and Polyanionic Cellulose in Taizhou. The R&D staff accounts for 24% of the total staff. The company has set up R&D centers to engage in research and development in different fields. The company has 14 utility model patents, including the research and development of sodium carboxymethyl cellulose purification process, the research and development of sodium carboxymethyl cellulose solid purification technology, the research and development of sodium carboxymethyl cellulose heat resistant modification technology. In recent years, we have continued to increase investment in research and development, and the application range of products has also continued to expand. Hansstar was first established in 1973, located in Huashi Town, Jiangyin City, Jiangsu Province, where private enterprises are developing vigorously, covering an area of about 37 mu, with an annual production capacity of 15,000 tons. In 2013, due to development needs, we selected the core port area of Taizhou to build the second large-scale production line -- Hansstar Texture Ingredient Taizhou Co., LTD., covering an area of about 62 acres, with an annual production capacity of 20,000 tons; In 2019, we wholly acquired CP Kelco Taixing and renamed it Hansstar Technology Taixing Co., LTD. Hansstar Technology is located in the Economic Development Zone of Taixing City, Jiangsu Province, which is one of the earliest fine chemical parks in China and ranks the fifth in the chemical parks in China in 2022. Hengda Technology covers an area of about 67 mu with an annual production capacity of 15,000 tons. At present, the annual capacity of Hansstar Sodium CMC over 50,000 tons. Products are widely used in paper, food, washing, oil drilling, textile, ceramics and other industries. At present, Hansstar has offices in Guangdong, Tianjin, Zhejiang, Shandong, Sichuan and other places, and its domestic business covers more than 30 provinces, autonomous regions and municipalities. At the same time, the products are exported to Europe, the United States, the Middle East, Southeast Asia and other countries and regions. We take "quality is life, the user is God" as the purpose, over the years have constantly introduced advanced production equipment and management system, in the "new", "quality", and strive to constantly improve the overall quality of the enterprise. At present, the DCS automatic control system has been enabled to achieve full automation of production, and is equipped with professional laboratory equipment to detect the physical and chemical indicators of products and microorganisms, heavy metal content. The company introduced the ERP system and integrated the enterprise information system, which greatly improved the management efficiency. At the same time, the company has passed ISO9001 and other quality management systems to strictly control product quality and risk management.

The scientific application of Sodium Carboxymethyl Cellulose: optimizing the dosage of thickener and improving the production efficiency In modern industrial production, in order to improve the quality and production efficiency of products, scientists have been constantly seeking innovative solutions. Sodium Carboxymethyl Cellulose SCMC, as an important thickener, is increasingly becoming the star of industrial production. In this paper, the scientific dosage of Carboxymethyl Cellulose used as thickener in industry will be studied deeply, and how to optimize the usage to improve the production efficiency will be discussed. Introduction to Sodium Carboxymethyl Cellulose Carboxymethyl Cellulose Sodium carboxymethyl cellulose is a chemical derived from cellulose that has excellent thickening properties. Due to its excellent solubility and stability, sodium carboxymethyl cellulose is widely used in a variety of industrial applications, including food, medicine and textiles. The importance of thickeners In industrial production, the use of thickeners is indispensable. Thickeners improve fluid properties by increasing the viscosity of the liquid, making the product easier to process and apply. Sodium carboxymethyl cellulose has become one of the preferred thickeners in many industries due to its excellent thickening properties. It is necessary to determine the dosage of thickener scientifically The correct amount of thickener is crucial to the production process. Excessive use of thickeners may lead to a decline in product quality, while too little use may not achieve the desired viscosity. Therefore, scientific determination of thickener dosage is a key step to ensure production stability and economy. Optimum use of sodium carboxymethyl cellulose The optimal amount of sodium carboxymethyl cellulose to use depends on a number of factors, including the nature of the liquid being treated, the characteristics of the production equipment, and the requirements of the final product. Through precise experiments and scientific analysis, it is possible to determine the best use of sodium carboxymethyl cellulose under different conditions to achieve the best thickening effect. Effect of dosage optimization of thickener on production benefit By scientifically determining and optimizing the amount of sodium carboxymethyl cellulose used, manufacturers can gain many benefits. First, the stability of the production process will be improved, thus reducing fluctuations and variations in production. Secondly, by reducing the use of thickeners, enterprises can achieve effective cost control and improve economic benefits. Sodium carboxymethyl cellulose is an excellent thickener in the growing industrial field, and the determination and optimization of its scientific dosage is of great significance to improve the production efficiency. By gaining a deep understanding of its nature, implementing scientific experiments and analysis, companies can optimize their production processes and lay the foundation for sustainable development and innovation. Therefore, in industrial production, the scientific use of sodium carboxymethyl cellulose, through reasonable control of the amount of thickener, will become a key step for enterprises to efficient and stable production. Physical and chemical properties of sodium carboxymethyl cellulose In order to better understand the optimal dosage of sodium carboxymethyl cellulose as a thickener in industry, let's first explore the physicochemical properties of this compound. Sodium carboxymethyl cellulose has a unique molecular structure, and the presence of hydrophilic groups and dispersed groups gives it excellent water solubility and viscosity regulation properties. These characteristics make it perform well in different industrial application scenarios. Factors influencing the dosage of thickener When determining the optimal use of sodium carboxymethyl cellulose, a number of factors need to be considered. First, the nature of the liquid being treated is an important consideration, and different liquid systems may require different amounts of thickener. Secondly, the characteristics of the production equipment, including the mixing speed, temperature, etc., will also directly affect the performance of the thickener. Finally, the requirements for the final product will also play a key role in determining the dosage of the thickener. Experimental methods and data analysis Scientific experimental method is the key to determine the optimal dosage of thickener. Through the experimental design of the system, the real production environment can be simulated, and different amounts of sodium carboxymethyl cellulose can be tested. This involves many experimental techniques such as viscosity measurement and rheological property analysis. By obtaining a large amount of data, the relationship between dosage and performance can be established to provide a scientific basis for determining the optimal dosage. Economic benefit analysis of thickener dosage In addition to focusing on the technical performance of the production process, we also need to pay attention to the impact of the dosage of thickener on the economic efficiency. By controlling the dosage of thickener reasonably, enterprises can reduce the cost and improve the production efficiency. Precise dosage control not only helps to improve the operating efficiency of the production line, but also reduces the scrap rate, thus creating greater economic added value for the enterprise. Environmental and sustainability considerations In today's society, environmental protection and sustainability have become an important direction of industrial development. The sustainability benefits of sodium carboxymethyl cellulose are highlighted during use. Through reasonable control of the amount, not only can reduce the generation of waste, but also reduce the burden on the environment, in line with the concept of green production. Future trends and innovation Finally, let us look forward to the application trend of sodium carboxymethyl cellulose in the future. With the continuous progress of science and technology, we are expected to see the emergence of more intelligent and efficient thickener dosage control technology. Sodium carboxymethyl cellulose, as one of them, will continue to play an irreplaceable role in industrial production, and promote the industry to move towards a more green and intelligent direction.

In modern life, people pay more and more attention to the flavor and health of food. Therefore, for food manufacturers, improving the quality and taste of food and ensuring the health of food is means to attract consumers. At the same time, in order to ensure the competitiveness and taste of food, it is also crucial to improve the shelf life of food. As an important non-toxic and tasteless additive, Food Grade CMC can greatly and effectively improve quality, taste and shelf life of food. Food Grade Sodium CMC NA with refined cotton as raw material, refined and synthesized from natural plant cellulose, ingredients in the additives that may be harmful to human health are eliminated from the source, and the pure natural raw materials and processing accessories also ensure that even vegetarians and people with many kinds of allergens can also eat them without any side effects. Food Additives CMC can replace gelatin, agar, sodium alginate and pectin in food production. It has been widely used in a variety of food, like ice cream, bakery food, fruit juice, vegetable juice, yogurt, etc. Carboxymethyl Cellulose can make the pulp or various solids or other substances suspend evenly and plumply in the container, improving taste and also extending the shelf life of the food. Taking into account the different requirements of food processing links, some food processes are complex, some food processes are simple, so Sodium CMC can also be divided into ordinary type and instant type. Ordinary CMC Powder is widely used and suitable for most processing processes. However, it is limited by the process in foods that require high dissolution transparency and dissolution uniformity, and it will take a long time to completely dissolve; instant CMC is relatively costly but can form high dissolution and better uniformity, and the dissolution speed is faster, which usually only takes 10-30 minutes. If you or your customers have high requirements for food manufacturing and pursuit of health goals, welcome to contact us.

Sodium Carboxymethyl Cellulose SCMC can be used as an anti-settling agent, emulsifier, dispersant, leveling agent, and adhesive for coatings.Sodium CMC can make the solid composition of paint evenly distributed in the solvent, so that the coating will not be layered for a long time. It is widely used in water-based coatings. 1. The function of CMC Polymer in coatings: ① Dispersity: CMC quickly disperses so that the paint components are uniformly dissolved in the solvent. ② Water retention: The chain structure of polymer of CMC adsorbs water molecules to form solvation layer. ③ Thickening: CMC has high viscosity with obvious thickening effect. ④ Leveling: CMC mixes paint evenly and maintains a uniform liquid, improving paint adhesion and smooth flow. 2. How to use CMC Chemical in latex paint: CMC Powder is used as a thickening and dispersing agent in latex paint. According to the characteristics of CMC, it can be firstly added to alkaline pigments and fillers, after being mixed and milled, the CMC mixture can be strongly stirred with the emulsion to make all the material dissolve quickly. Carboxyl Methyl Cellulose can also be dissolved at first, then stirred and mixed with other materials. If you have any interest or questions about Sodium CMC used in coatings, please contact Hansstar team freely.