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Hydroxypropyl Methylcellulose Ether(HPMC) Hydroxyethylmethylcellulose(HEMC) Hydroxyethyl Cellulose Ether(HEC) Hydroxy Propyl Cellulose(HPC) Methylcellulose(MC) Polyanionic Cellulose(PAC) Sodium Carboxymethylcellulose(CMC) Cellulose Acetate(CA)

Hydroxypropyl Methylcellulose Ether(HPMC)

Hydroxyethylmethylcellulose(HEMC)

Hydroxyethyl Cellulose Ether(HEC)

Hydroxy Propyl Cellulose(HPC)

Methylcellulose(MC)

Polyanionic Cellulose(PAC)

Sodium Carboxymethylcellulose(CMC)

Cellulose Acetate(CA)

Super-High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC

Hanhua Chemical

Specifications

HS Code

762108

Packing & Storage

Packing	50 - kg bags of Super - High Viscosity Petroleum Grade CMC sodium for packaging.
Storage	Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC should be stored in a cool, dry place. Keep it away from direct sunlight and moisture to prevent caking and degradation. Store in a well - sealed container to avoid contact with air - borne contaminants. Ensure the storage area is free from sources of heat and ignition.
Shipping	Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC is shipped in sealed, moisture - proof containers. Shipment is via reliable freight carriers, ensuring protection from damage and environmental factors during transit.

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Tel: +8615651039172

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General Information

Historical Development

In ancient times, there was no Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC. At that time, all kinds of industries were not prosperous, and they were simple and simple in the pursuit of things. With the catch of later generations, science and technology are advancing day by day, and everyone is seeking more and more in the nature of materials. Researchers are dedicated to thinking, observing the nature of materials, and exploring methods. At the beginning, there were those who made CMC with ingenious techniques. At the beginning, its quality was not pure, and its use was limited. However, researchers continue to strive for excellence. After years of hard work, the craftsmanship has gradually improved, and the nature of CMC has become better, showing its ability in petroleum and other industries. From the beginning to the present, its quality and use have undergone tremendous changes, flourishing from the end to the end, becoming an important thing today, and assisting the industry is indescribable.

Product Overview

Super-High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose (CMC) is a good chemical product. Its properties are unique and it has a wide range of uses in the petroleum industry. Looking at this CMC, it has the characteristics of high viscosity, which can help stabilize the well wall during oil extraction, prevent it from collapsing, and improve mud rheology, making drilling smoother. Its quality is excellent, it is made by fine craftsmanship, and it can adapt to complex underground environments. It has made great contributions to improving the efficiency and quality of oil extraction. It is an indispensable material in the petrochemical field, contributing to the great industry of mining and helping to make extraordinary progress.

Physical & Chemical Properties

Today there is a product named Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC, whose physical and chemical properties are particularly important. This product has high viscosity and is widely used in the petroleum field. Looking at its physical properties, it can increase the consistency of the solution and stabilize the suspension state. In terms of chemical properties, it has good solubility and reactivity and can react with many substances. Under harsh conditions such as high temperature and high pressure, its properties can also remain relatively stable, providing assistance for oil extraction and other operations. With its unique physical and chemical properties, it has gradually become an important position in the industry and plays a key role.

Technical Specifications & Labeling

Today there is Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC. Its technical specifications and identification (commodity parameters) are the key. Looking at its quality, it needs to be highly viscous and suitable for the petroleum field. Its technical specifications are related to the ratio of raw materials, the length of the process, etc. In terms of identification, it is necessary to specify various parameters, such as viscosity geometry and purity, so that the user can see at a glance. According to the ancient law, this product should be made in strict accordance with the procedures, and there must be no mistakes in order to become a good product. To meet the needs of oil, follow this technical specification and identification, and then it can be used in the market and is valued by the industry.

Preparation Method

The raw materials and production process of Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose (CMC) are the key. The raw material is selected from high-quality cellulose and matched with chloroacetic acid and other reagents. In the production process, the cellulose is first alkalized, which is the beginning of the reaction. Then the alkalized cellulose is reacted with chloroacetic acid, which is the core step. The reaction conditions need to be precisely controlled, and the temperature, time and reagent ratio are all exquisite. After the reaction is completed, the impurities are removed after purification, drying and other subsequent treatments to obtain a high-purity product. In this way, the ultra-viscous petroleum-grade sodium carboxymethyl cellulose CMC with excellent performance can be prepared, which is widely used in petroleum and other fields.

Chemical Reactions & Modifications

The chemical reaction and modification of Guanfu Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC are worth studying. In various reactions, or due to differences in media and temperature changes, there are special ways. If it interacts with bases, it can cause molecular structure to change, which in turn affects its properties. And the way of modification is related to increasing its stability and adjusting its viscosity. If it is treated in a special way, it may be able to produce extraordinary effects in the petroleum industry and other fields. However, the variables must also be carefully observed, from the control of reaction conditions to the measurement of product properties, which cannot be ignored. In this way, it is expected that the chemical reaction and modification of CMC can achieve exquisite results, which can meet the various needs of industry.

Synonyms & Product Names

Today there is a product named Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC. Its same trade name is many. This is a chemical product, which has been widely used in the world. As far as the same product is concerned, there may be carboxymethyl chloride and high-viscosity petroleum, or it may be called by the name of its characteristics. As for the trade name, various companies have taken it as their own, but they all refer to this Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC. Its wide range of uses and important effects in various fields such as petroleum. The same trade name is well known to all people, and it helps this product to better circulate and use in different situations.

Safety & Operational Standards

Product Safety and Operation Specifications for Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC is widely used in the chemical industry. However, to ensure its safe and smooth use, specific safety and operation specifications must be followed. #1. Storage Regulations This product should be placed in a cool, dry and well-ventilated place to avoid water, fire and moisture. Cover moisture can easily cause deliquescence and damage its performance. The height of the stack should also be limited to avoid the risk of collapse. And can not be mixed with other chemicals, to prevent chemical action. #2. Operation When operating, wear protective gear, such as gloves, masks, goggles, etc. Because if the powder enters the eyes, mouth or touches the skin, it may cause discomfort. When taking it, the action should be slow to avoid powder and dust rising in the air. If operating in a closed space, a ventilation device must be installed to reduce the dust concentration. #3. Emergency measures If it accidentally touches the skin, rinse it with plenty of water quickly; if it enters the eyes, rinse it with water immediately and seek medical attention. In case of fire, use dry powder or carbon dioxide fire extinguishers to put it out, and do not use water. #4. Disposal Disposal Disposal of discarded products, do not dispose of them at will. In accordance with local environmental protection regulations, centrally dispose of them. Or recycle and reuse, or conduct harmless disposal to reduce environmental harm. Anyone who uses this Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC should understand this safety and operation specification to ensure all things go smoothly and people's safety and safety.

Application Area

Super-High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose (CMC) is the best way to use it. In the field of oil opening, it can be used as a drilling mud additive to make the mud have good stability and rheology, protect the well wall and prevent collapse, and help the drilling cuttings to be suspended, so that it can be discharged. In oil production, this agent is injected to improve oil displacement efficiency and increase oil output. In the paint industry, it can be used as a thickener to make the paint evenly coated to avoid the disadvantages of flow and hanging. In the paper industry, adding it can improve paper strength and surface properties. This Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC has extraordinary functions in the field of multi-use.

Research & Development

In recent years, I have made great efforts in the research of Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC. This substance has great potential in the field of petroleum. At the beginning, analyzing its characteristics, we knew that its high viscosity is wonderful, and it may be helpful for oil extraction. However, the road of research and development is full of thorns. Raw material selection and process carving require careful attention. After months of research, the process is improved and the formula is optimized. Looking at the results today, the performance of CMC is gradually improving. In simulated mining situations, it performs quite well and can increase the rate of oil recovery. Although it is not perfect, it has seen the dawn. In the future, we should continue to make progress, with the hope of shining brightly in the oil industry, promoting the development of this field, and contributing to the progress of the industry.

Toxicity Research

The Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC has been studied by researchers of our generation. To understand its toxicity, one must carefully observe the number of experiments, test its response to various objects, and observe its effect on living beings. Ancient scholars were cautious in observing objects, and they should follow this trend today. Examine the system of CMC in detail, and observe what method it is made of, what raw materials it uses, and the geometry of its impurities. Repeat to test animals, and observe the shape after eating, touching, and inhaling it. If you see its hair is dull, its behavior is abnormal, or its organs are damaged, the toxicity is obvious. And when observing its impact on the environment, if it pollutes water and soil, harming insects and fish, its toxicity is very serious. Only by careful investigation can we know the true toxicity of CMC, so as to determine whether it can be used or not, and to learn from it for future generations.

Future Prospects

The chemical products in the world today, Super - High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC, are emerging and have great prospects for future expansion. This product has unique characteristics and high viscosity. It is widely used in the petroleum industry. It can help the efficient exploitation of oil reservoirs, and can stabilize its fluids during drilling, prevent collapse of the wall, and has outstanding functions. Looking forward to the future, with new technology, CMC will definitely be able to make great plans again. With advanced research and development, it may expand its application field, and shine in more industries. Quality optimization, in response to the strict requirements of the market, makes efficiency even higher. And the green concept is gaining popularity, and the preparation process of CMC may move towards environmental protection, adding a bright color to the future chemical industry. The prospect is clear, and it is really exciting to see.

Frequently Asked Questions

What are the main application fields of ultra-high viscosity petroleum grade sodium carboxymethyl cellulose CMC

Ultra-high-quality petroleum-grade alkyl aromatic calcium (CMC) has a wide range of main application fields. In internal combustion engine oil, it is crucial. Cover internal combustion engine oil needs excellent clean dispersion performance. CMC can effectively inhibit the formation of carbon deposits, paint films and sludge, ensure the internal cleanliness of the engine, smooth its operation, and improve its performance and life. In the field of industrial lubricants, it is also very useful. The operating conditions of industrial equipment are complicated, and the performance requirements of lubricating oils are strict. CMC can enhance the anti-oxygen and anti-corrosion properties of industrial lubricants, making them stable in long-term use, reducing equipment wear, prolonging equipment service life, and reducing maintenance costs. Furthermore, in the field of metalworking fluids, CMC is also indispensable. During metal processing, effective lubrication and cooling are required to ensure machining accuracy and surface quality. CMC can improve the lubrication and rust resistance of metalworking fluids, prevent metal workpieces from rusting, and improve processing efficiency and product quality. And in the production of grease, CMC can optimize the structure and performance of grease. Make the grease have better consistency and mechanical stability, and can play a stable lubricating effect under different working conditions. It is widely used in friction parts of various machinery.

How to Measure the Viscosity of Ultra High Viscosity Petroleum Grade Sodium Carboxymethyl Cellulose CMC

To determine the purity of ultra-high purity petroleum grade calcium alkylbenzene sulfonate CMC, you can follow the following method. First take an appropriate amount of sample, dissolve it with organic solvents such as chloroform, benzene, etc., to ensure that the sample is fully dispersed in the solvent. This step is designed to make the sample in a state that is easy to analyze. Then, high performance liquid chromatography (HPLC) can be used. The dissolved sample is injected into the HPLC instrument, and it is separated through a specific chromatographic column. According to the retention time and peak area of the standard sample with known purity, and compare it with the corresponding data of the sample to be tested, the content of the target component in the sample can be accurately determined to infer its purity. Gas chromatography (GC) can also be used. If the sample is suitable for gasification, it is gasified and injected into the GC instrument. The carrier gas carries the sample through the chromatographic column, and the components are separated according to their own properties. The purity of the sample is also analyzed by virtue of the parameters of the standard sample. In addition, elemental analysis is also a usable method. Accurately determine the content of each element in the sample, such as carbon, hydrogen, oxygen, sulfur and other elements. According to the chemical composition of ultra-pure petroleum-grade calcium alkylbenzenesulfonate CMC, the purity can be inferred by the proportion of the element content. However, this method requires accurate elemental analyzer and superb operation skills. Or titration analysis can be used. If there is a group in the sample that can be quantitatively reacted with a specific reagent, choose a suitable titrant for titration. According to the volume and concentration of the titrant consumed at the titration end point, calculate the content of the target component in the sample, and then obtain the purity. During operation, it is necessary to strictly control the titration conditions and end point judgment to ensure the accuracy of the results.

What are the precautions for storing ultra-high viscosity petroleum-grade sodium carboxymethyl cellulose CMC?

Ultra-high-quality petroleum-grade alkyl phenol polyoxyethylene ether CMC has various matters to be paid attention to during storage. Its nature is delicate, and the first environment is dry. In damp and moist places, it is easy to cause its qualitative change, damage its original properties, and cause its effectiveness to be sharply reduced. Furthermore, it is necessary to avoid light. Direct sunlight can urge its chemical reaction and damage its quality. Hidden in a dark place, it can keep its stability. The temperature should not be underestimated, and it should be controlled at a suitable temperature. Overheating will speed its decay, and overcooling or causing its appearance is not conducive to its survival. And it must be isolated from other objects. This agent is active, and it is easy to phase with other substances. Mixing with it may lead to accidents, or lose its use, or cause danger. In addition, the storage device should be adapted. Avoid using materials that phase with CMC to avoid reaction and contaminate its body. When handling, also be cautious. Handle with care to avoid shock and collision. If the packaging is damaged, air and moisture are easily invaded and damage its quality. Daily inspection is also indispensable. Observe its shape and observe its properties. If there is any abnormality, deal with it quickly to ensure its quality and prepare for future use.

What are the advantages of ultra-high viscosity petroleum-grade sodium carboxymethyl cellulose CMC over other similar products?

Today, there are ultra-high-quality petroleum-grade calcium alkylbenzene sulfonate CMCs, which have obvious advantages compared to other similar products. First of all, its ability to clean and disperse. This CMC can effectively remove carbon deposits, sludge and other filth during engine operation, making the engine interior as clean as ever. It is like a skilled craftsman carefully taking care of it to maintain the smooth operation of the engine without any blockage. And other products may not be able to remove scale, making it difficult to achieve such a pure state. Furthermore, its antioxidant properties are extraordinary. CMC is like a loyal guard, which can effectively resist oil oxidation, delay the deterioration process of oil products, and prolong the service life of oil products. In contrast, other products face oxidative erosion, or are difficult to stick to for a long time, causing premature deterioration of oil and affecting engine performance. The effect of lubrication protection is also its highlight. CMC can form a tough lubricating film on the surface of the machine parts, such as a strong shield, to reduce the friction loss of the machine parts, so that the components cooperate seamlessly, reduce wear and prolong the life of the engine. In this regard, it may be difficult for other products to provide such a stable and reliable protection. And its adaptability is very strong. No matter the severe cold and heat, or different working conditions, CMC can be used with ease and play a stable performance. And other products or due to environmental changes, the performance fluctuates, making it difficult to consistently ensure the efficient operation of the engine. From this perspective, ultra-high-quality petroleum-grade calcium alkylbenzene sulfonate CMC has many advantages over other similar products in terms of cleaning and dispersion, anti-oxidation, lubrication protection, and environmental adaptation. It can be called a good product for engine maintenance.

What factors affect the price of ultra-high viscosity petroleum grade sodium carboxymethyl cellulose CMC

The price of ultra-high-quality petroleum-grade calcium alkylbenzene sulfonate (CMC) is influenced by many factors. First, the cost of raw materials has a great impact. Oil is the key raw material for the production of this agent. If the price of oil rises, the cost of obtaining calcium alkylbenzene sulfonate will also rise. Because the production process is highly dependent on oil, the fluctuation of oil prices is directly related to the purchase cost of raw materials, which in turn affects the price of products. Second, the market supply and demand situation is an important factor. When the market for ultra-high-quality petroleum-grade calcium alkylbenzene sulfonate is strong and the supply is relatively insufficient, its price tends to rise. On the contrary, if the market demand is weak and the supply is excessive, merchants may lower prices in order to sell. For example, during a certain period, the demand for it in many industrial fields surged, and the supply exceeded the demand, so the price rose significantly; and in the off-season of demand, the price fell. Third, the production process and technical level also have an impact. Advanced production technology can improve production efficiency and reduce production costs, and product prices may be maintained within a reasonable range. If the production process is backward, not only is the efficiency low, but the product quality may be difficult to guarantee, and the cost increase will also lead to higher prices. At the same time, investment in technology research and development can improve product performance. For products with superior performance, the market price may be higher. Fourth, policy and regulatory factors should not be underestimated. With stricter environmental protection policies, production enterprises need to invest more funds in the construction and operation of environmental protection facilities to meet emission requirements, which undoubtedly increases production costs and drives up prices. On the contrary, if there are relevant industrial support policies, it may ease the cost pressure of enterprises to a certain extent and stabilize prices.