Zirconium Acetate
| HS Code | 301085 |
| Chemical Formula | Zr(CH3COO)4 |
| Molar Mass | 327.33 g/mol |
| Appearance | White or colorless solid |
| Solubility In Water | Soluble |
| Solubility In Organic Solvents | Soluble in some organic solvents |
| Ph In Aqueous Solution | Slightly acidic |
| Density | ~1.28 g/cm³ (approximate) |
| Melting Point | Decomposes before melting |
| Stability | Stable under normal conditions but can react with strong acids and bases |
As an accredited Zirconium Acetate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Zirconium Acetate packaged in 1 - kg containers for secure storage and handling. |
| Storage | Zirconium acetate should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. Avoid storing it near incompatible substances like strong acids or bases. Store in a well - ventilated area to minimize the risk of harmful fumes accumulation. |
| Shipping | Zirconium Acetate is shipped in well - sealed, corrosion - resistant containers. Adequate cushioning is used to prevent breakage. It follows strict chemical shipping regulations to ensure safe transport due to its chemical nature. |
Competitive Zirconium Acetate prices that fit your budget—flexible terms and customized quotes for every order.
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Historical Development
The origin of zirconium acetate can be traced back to the mid-nineteenth century. Western scholars explored metal compounds and tasted the method of co-synthesis of zirconium and acetic acid. At first, it was difficult to produce, and it was mostly found in experimental places, and it was not widely used in the world. In the mid-twentieth century, industrial demand gradually increased, and ceramics, fibers and many other fields relied on the characteristics of zirconium. Acetate played an important intermediary role in it. Chemists became more and more intensive, and the preparation method became more and more simple, and the quality became more and more pure, so it was widely used. In the 21st century, zirconium acetate has performed more and more brilliantly in new fields of science and technology such as environmental protection, energy, and catalysis. Looking at its development today, it is a testament to the mutual improvement of scientific progress and industrial demand, so that zirconium acetate products have
Product Overview
Zirconium acetic acid is a compound composed of zirconium as the main body and acetate. It is white or white-like crystalline, soluble in water to form a transparent solution, and the reaction environment is mild and highly stable. It is used in ceramic catalysis and material modification fields to help improve the performance of products. In organic synthesis and polymer materials, it is often used to promote cross-linking reaction and enhance structural robustness. And its inorganic properties make it especially popular in environmentally friendly processes. Storage should be dry and sealed, protected from light and moisture, and properly stored. It is suitable for diversification and is highly respected in the industry.
Physical & Chemical Properties
Zirconium acetic acid, white or yellowish solid, like a powder, slightly hygroscopic. Easily soluble in water, the solution is clear and thorough, and it is also soluble in alcohols and other solvents. Its chemical properties are mild, but it is easy to hydrolyze in case of strong alkali to form zirconium hydroxide. When heated to high temperature, it gradually decomposes, and precipitates zirconia and organic matter gas. Zirconium acetic acid is neutral or slightly acidic, and its properties are stable at room temperature. It is easy to deteriorate when damp, and must be sealed and dry for storage. It can react with sulfate and phosphate to form precipitation. Metal zirconium is the main one, and its valence is always tetravalent. Acetic acid ligands chelate with it, and small molecules are easy to free. In case of strong reducing agents or strong oxidizing agents, the properties may change. Flame color does It is widely used in material preparation, catalyst support, and related chemical reactions.
Technical Specifications & Labeling
Ethyl zirconate, white or slightly yellow solid, mild in taste and slightly hygroscopic. The molecular formula is C4H7O6Zr, and the molecular weight is 266.32. The chemical purity is often more than 99%. Soluble in water and alcohol, difficult to dissolve in ether. Common packaging is 25kg paper drums or woven bags, which need to be sealed and stored, moisture-proof and light-proof. The specific gravity is about 1.7, the melting point is about 250 degrees Celsius, and it decomposes volatile acetic acid and water. Its structure is stable, and it can be used as a zirconium source for catalysts, ceramics and functional materials synthesis. The appearance of the product is bright and clean, and the impurities contained are extremely low. The marking specification, the batch and the production date are clearly indicated, and the certificate of conformity and the test report are attached. The transportation and storage must be dry, and the acid-base and reducing substances must be strictly separated. For experiment or industry, it is appropriate to check the purity and take it
Preparation Method
Zirconium acetic acid is prepared by using zirconium tetrachloride or zirconium oxide and acetic acid as a supplement, and the exact ratio is obtained. The process begins with the dissolution of zirconium salt in water, the addition of acetic acid slowly, and the temperature is controlled at a moderate level. Stirring slowly makes zirconium ions complex with acetate. During the reaction, a little hydrated ammonia may be added to adjust the pH of the system to ensure the full complexation of acetic acid. The mechanism is that zirconium ions first interact with water and then combine with acetic acid to form a zirconium acetic acid complex. The reaction temperature, the dropwise rate of acetic acid, and the high pH in the system all affect the complexation efficiency and the crystal form of the product. Finally, it is separated by suction filtration, washed repeatedly to remove impur If a catalyst is used, it is mostly a weak acid catalyst, which promotes the increase of the complexation rate and helps to generate uniform and high-purity zirconium acetic acid.
Chemical Reactions & Modifications
Ethyl zirconate, an organic compound of zirconium, has mild properties and is soluble in water and organic solvents. When it is hydrolyzed by adding water, a precipitation of zirconium hydroxide is formed. If the temperature is suitable, uniform nanoparticles can be obtained. Ethyl zirconate forms coordination compounds with functional groups such as carboxylic acids and amines to adjust its structure and modify its properties. In industrial applications, ethyl zirconate is often used as a precursor to prepare zirconium-based materials by sol-gel method, or blended with silicon and aluminum to improve its thermal stability and mechanical strength. Significant contributions to catalysis, ceramics, energy storage materials and other fields. If organic small molecules or polymers are introduced, zirconium ions can be complexed with them to form new organic-inorganic composites, and their surface properties, pyrolysis behavior and corrosion resistance are also significantly improved. Chemical reaction and modification are combined to expand its application boundaries in many high-performance fields.
Synonyms & Product Names
Zirconium acetate is a compound of zirconium and acetic acid. Its synonymous names, or zirconium acetate, zirconium acetate, zirconium diacetate, zirconium salt acetic acid, are recorded in foreign languages as Zirconium Acetate, Acetic acid zirconium salt, Zirconium diacetate, and its aliases are also seen in the market, such as Zirconyl Acetate, Zr (OAc), Zirconium acetate. When the goods are in circulation, they may be distinguished by high purity, reagent grade, and industrial grade. The packaging labels vary depending on the place of origin, and there are common business names such as ALDRICH, Sigma, and Strem Chemical. Its applications cover catalysis, ceramics, and material modification. Although the names are different, they are actually the same. Buyers and sellers should distinguish their similarities and differences to avoid confusion. Traveling to various countries, bidding inquiries, the use of their trade names and synonyms juxtaposed, in order to distinguish authenticity, clear the source of production, faithful way.
Safety & Operational Standards
Zirconium Acetate is a chemical product. It is slightly corrosive, releases heat in contact with water, easily reacts with strong oxidants, and is inadvertently operated or causes disasters. When handling this object, the first thing is to ventilate the room to avoid the accumulation of static gases, so that the airflow is smooth. When holding utensils, you must wear protective clothing, cover them with gloves, boots and hats, and wear goggles to prevent splashing and dust. If you splash the skin, wash it with water urgently, seek medical treatment quickly, and do not ignore it. If you store this object, you should choose a cool and dry place, tightly closed, far away from hunger drinks and fireworks, and do not store it with oxidants, and remember the logo, so that people can see the content. If you enable or transfer it, make sure to move slowly, and the bottle can should not be thrown upside down to prevent damage and leakage. If there is a spill, it should be covered with dry sand and inert substances, collected slowly, and discarded in the place where the rules are, and it is strictly forbidden to discharge at will. The leftovers and dirt used should be disposed of in accordance with laws and regulations, and should not be discarded in ditches and ponds to avoid polluting the environment. In case of a blazing flame, dry powder and carbon dioxide should be used to extinguish it. Do not douse it with water to prevent the reaction from being more intense. To the operator, when entering the institute, it is advisable to be taught by a special person, understand the reason and know the harm, and then work independently. If you abide by the operating norms, you can keep your health far from disaster. If you neglect your precautions, you will have no regrets.
Application Area
Zirconium acetic acid is mild in nature, easily soluble in water, and is widely used in many fields. It is used in ceramic manufacturing, often for the supply of zirconium element, which can increase the strength and heat resistance of ceramics. And in the preparation of catalysts, it can be used as a carrier to assist in the speed of chemical reactions. In the textile industry, it can be used as a crosslinking agent for fabrics to make products more upright and durable. In addition, zirconium acetic acid is also very useful in the environmental protection industry. It can be used for wastewater treatment, adsorption of heavy metal impurities, and purification of water quality. It can also be seen in the fields of pharmaceuticals, photosensitive materials, etc., to improve product performance. Its stable nature and convenient operation make it very popular in modern high-tech industries, and it is an indispensable
Research & Development
Zirconium acetic acid is an important product in the development of modern chemical industry. It is stable and easily soluble, and is widely used in the preparation of catalysis, ceramics and functional materials. Workers have repeatedly replaced the old zirconium salts with its high purity and excellent reactivity, and have achieved great results. From the laboratory to industrial large-scale production, scholars have unremitting exploration of its reaction mechanism and preparation process. Analyze its thermal decomposition, control its particle size distribution, optimize raw materials, refine the synthesis path, and pursue the purpose of pure quality and cost reduction. More intelligent control equipment is used to greatly improve the stability of the product. However, the field of zirconium acetic acid is expanding, and the frontiers of nano and green chemistry involved are also urging new methods to emerge frequently. With the research and development of zirconium acetic acid, the new development of chemical industry has opened up the wide range of materials, and the prospect is unlimited.
Toxicity Research
Ethyl zirconate, used in modern experiments, is stable in nature, but it is dangerous to be toxic. After various methods of yin and yang to test its effect, it was applied to rats to observe its appearance. When taking micro-doses for the first time, no serious illness was seen, but after a long time and high doses, there was fatigue, shortness of breath, and some muscle cramps. When looking at the organs, the liver and kidneys were slightly swollen, and the enzyme value in the blood rose slightly. There are also reports of inflammation in the lungs and intestines, showing that accumulation can hurt the organs. However, its toxicity is much lighter than that of highly toxic substances such as mercury and lead. In case of oral ingestion or skin contact, there is no immediate disaster. However, for many years, it is still necessary to be careful to protect and not to take it by mistake. Nowadays, there are regulations for medicinal or industrial preparation, and it is guaranteed to be harmless. Scientific researchers, when operating, it is advisable to wear a barrier and clean your hands frequently to prevent damage from being undetected.
Future Prospects
Zirconium acetic acid, the essence of chemistry, is widely used in modern industry. Looking at today's technology with each passing day, the door to new materials is often opened, and zirconium acetic acid is expected to be widely used in high-performance ceramics, catalysts and new energy fields. Its physical and chemical properties are excellent, and it is expected to replace old materials, contributing to environmental friendliness and resource efficiency. In the future, scientific research will be purified and optimized by green processes, and intelligent manufacturing will be used to enhance stability and application breadth. The global voice for environmental protection is growing, and clean energy is in urgent need of support, and zirconium acetic acid can become a key auxiliary material. Scholars cooperate, enterprises innovate, and international exchanges are becoming more and more intensive. Technological progress and market expansion of zirconium acetic acid for material flooding. Expect it to make great plans in emerging fields such as biomedicine,
Where to Buy Zirconium Acetate in China?
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Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
As a leading Zirconium Acetate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What are the main uses of Zirconium Acetate?
Ethyl nitrate, which is made of acetic acid, has good water solubility. It is white or slightly colored crystals, and is often shown in solution or powder form. For modern use, it is mostly used in engineering, scientific research and other fields.
First, ethyl nitrate is often used in catalysis. Because it can generate alkyl complexes, it is good for catalyzing some chemical or chemical reactions, so it is suitable for petrochemical, chemical and other industries. In the synthesis, it can be used as a reaction of alaldehyde, ketone and other functions to help new products.
Second, ethyl nitrate can be used before high-grade ceramic materials. Ceramic properties are strong, high resistance, corrosion resistance, and high mechanical resistance. Its aqueous solution can be hydrolyzed and hydrolyzed, and it can be used as a super oxide powder. The fabrication of sub-components, equipment, and wear-resistant parts requires high-quality materials.
Third, in the fabrication, water treatment and other tasks, ethyl sulfate can be used for processing. It can give good performance of the product, and can also be used to fix sludge, making the process more efficient.
Fourth, this product is also often used for the modification of functional membrane materials. The properties of the element are special, and the properties of ethyl sulfate can be improved. It is used for separating films, sensitive films, etc.
It is also widely used, and ethyl acid ester is used in the production of chemical materials. It can be used to produce transparent and wear-resistant films through the solution-condensation method. It can be widely used in lighting, construction, etc.
This product should be carefully stored and avoid high tides. It is widely used, but it is necessary to comply with safety standards to prevent accidents.
The use of ethyl acid ester can be used as an indispensable material for OEM.
First, ethyl nitrate is often used in catalysis. Because it can generate alkyl complexes, it is good for catalyzing some chemical or chemical reactions, so it is suitable for petrochemical, chemical and other industries. In the synthesis, it can be used as a reaction of alaldehyde, ketone and other functions to help new products.
Second, ethyl nitrate can be used before high-grade ceramic materials. Ceramic properties are strong, high resistance, corrosion resistance, and high mechanical resistance. Its aqueous solution can be hydrolyzed and hydrolyzed, and it can be used as a super oxide powder. The fabrication of sub-components, equipment, and wear-resistant parts requires high-quality materials.
Third, in the fabrication, water treatment and other tasks, ethyl sulfate can be used for processing. It can give good performance of the product, and can also be used to fix sludge, making the process more efficient.
Fourth, this product is also often used for the modification of functional membrane materials. The properties of the element are special, and the properties of ethyl sulfate can be improved. It is used for separating films, sensitive films, etc.
It is also widely used, and ethyl acid ester is used in the production of chemical materials. It can be used to produce transparent and wear-resistant films through the solution-condensation method. It can be widely used in lighting, construction, etc.
This product should be carefully stored and avoid high tides. It is widely used, but it is necessary to comply with safety standards to prevent accidents.
The use of ethyl acid ester can be used as an indispensable material for OEM.
What are the Physical and Chemical Properties of Zirconium Acetate?
Zirconium acetate, known as Zirconium Acetate, chemical formula Zr (CH 🥰 COO), has different properties. The color is mostly white or white powder, with a little light yellow. Its solubility is good, it can be soluble in water and various polar organic solutions, such as alcohols, ethers, etc. Its crystalline properties vary with the amount of crystal water contained, and it is commonly tetrahydrate.
Its taste is slightly acidic, and its hygroscopicity is slightly. The pure body is easy to stabilize at room temperature, and it is not easy to change color when stored in a dry and ventilated place. In case of high temperature decomposition, volatile products of zirconium oxide and acetic acid are formed, and the temperature rise can lead to violent decomposition. Zirconium ions in its molecules combine with acetate in the form of coordination to form a tetracoordinate complex structure, so its crystals are neat and densely arranged.
Chemical properties, zirconium acetate is highly reactive, can exchange with a variety of anions and ligands, and quickly form a renewal complex. In case of strong acid, it can decompose, precipitate zirconium salts; in case of alkali, it forms zirconium hydroxide precipitation. It is acidic in aqueous solution and is suitable for catalysis, precipitation, complexation and other reactions. It interacts with certain metal ions to form multiple complexes, so it is widely used in polymer synthesis, ceramics, dyes, catalysts and other fields. After dissolving in hot water, it becomes clear, and when cold, it forms a colloid locally, which is suitable for colloidal solution preparation. It is used as a zirconium source raw material in chemical reactions and can be converted into other zircon
In addition, zirconium acetate is non-flammable in case of fire and has good chemical stability. It should not coexist with strong oxidizing agents or strong reducing agents, especially at constant temperature. It should be stored dry, moisture-proof and moisture-proof. Its toxicity is low, and it has little effect on the human body. However, it should not be inhaled or ingested in large quantities to avoid long-term contact with the skin.
The physical and chemical properties of zirconium acetate, both zirconium and acetate, are important chemicals commonly used in modern science and industry.
Its taste is slightly acidic, and its hygroscopicity is slightly. The pure body is easy to stabilize at room temperature, and it is not easy to change color when stored in a dry and ventilated place. In case of high temperature decomposition, volatile products of zirconium oxide and acetic acid are formed, and the temperature rise can lead to violent decomposition. Zirconium ions in its molecules combine with acetate in the form of coordination to form a tetracoordinate complex structure, so its crystals are neat and densely arranged.
Chemical properties, zirconium acetate is highly reactive, can exchange with a variety of anions and ligands, and quickly form a renewal complex. In case of strong acid, it can decompose, precipitate zirconium salts; in case of alkali, it forms zirconium hydroxide precipitation. It is acidic in aqueous solution and is suitable for catalysis, precipitation, complexation and other reactions. It interacts with certain metal ions to form multiple complexes, so it is widely used in polymer synthesis, ceramics, dyes, catalysts and other fields. After dissolving in hot water, it becomes clear, and when cold, it forms a colloid locally, which is suitable for colloidal solution preparation. It is used as a zirconium source raw material in chemical reactions and can be converted into other zircon
In addition, zirconium acetate is non-flammable in case of fire and has good chemical stability. It should not coexist with strong oxidizing agents or strong reducing agents, especially at constant temperature. It should be stored dry, moisture-proof and moisture-proof. Its toxicity is low, and it has little effect on the human body. However, it should not be inhaled or ingested in large quantities to avoid long-term contact with the skin.
The physical and chemical properties of zirconium acetate, both zirconium and acetate, are important chemicals commonly used in modern science and industry.
How is Zirconium Acetate stored and transported?
Ethyl zirconate, stable in nature, is easy to hydrolyze when wet, and should be stored and transported with caution. Its quality is white and crystalline, soluble in water and alcohol, with good hygroscopicity, and should be moisture-proof. For storage, choose a dry and ventilated room, away from direct sunlight, and should not be exposed to air. It should be stored in a closed container with the lid tightly closed. It can be made of glass, polyethylene or special plastics. It should not coexist with oxidizing agents, strong acids or volatile solvents. Place in a cool place with moderate temperature, preferably constant temperature. There are open flames, heat sources and high temperature equipment, all of which should not be close to it to prevent its chemical reactions or decomposition damage.
When handling, it should be handled with care, do not hit and shake, to prevent the damage of the utensils and spill. Operators wearing protective clothing, gloves and goggles, etc., should prevent direct contact with the skin. Once contaminated, rinse with water. If inhaling its dust, you should quickly leave the contaminated place and breathe fresh air. When transported in accordance with the national hazardous chemicals regulations, it should be placed in a special vehicle. The cargo should not be overloaded. The package is stable. It is forbidden to stack and dump to prevent leakage and loss. Long-distance transportation must be accompanied by warning signs, marked with the name of the product, and attached with safety data. Violent shocks are strictly prohibited during transportation. During rest, you need to stop in a cool and safe area.
In case of leakage, protective equipment should be worn. The residue should be collected with a clean tool first, and then treated with a small amount of water adsorption to prevent it from flowing into the sewer and the environment. Packaging and residues should not be discarded at will, and must be properly disposed of in accordance with environmental protection regulations. In the event of a fire, it can be extinguished with fire extinguishers such as water mist, dry powder, and carbon dioxide. Attention should be paid to the safe evacuation of personnel when fighting.
To sum up, the storage and transportation of ethyl zirconate is important in moisture-proof, heat-proof, and away from strong oxides. It also pays attention to airtight and safety protection, but it is safe.
When handling, it should be handled with care, do not hit and shake, to prevent the damage of the utensils and spill. Operators wearing protective clothing, gloves and goggles, etc., should prevent direct contact with the skin. Once contaminated, rinse with water. If inhaling its dust, you should quickly leave the contaminated place and breathe fresh air. When transported in accordance with the national hazardous chemicals regulations, it should be placed in a special vehicle. The cargo should not be overloaded. The package is stable. It is forbidden to stack and dump to prevent leakage and loss. Long-distance transportation must be accompanied by warning signs, marked with the name of the product, and attached with safety data. Violent shocks are strictly prohibited during transportation. During rest, you need to stop in a cool and safe area.
In case of leakage, protective equipment should be worn. The residue should be collected with a clean tool first, and then treated with a small amount of water adsorption to prevent it from flowing into the sewer and the environment. Packaging and residues should not be discarded at will, and must be properly disposed of in accordance with environmental protection regulations. In the event of a fire, it can be extinguished with fire extinguishers such as water mist, dry powder, and carbon dioxide. Attention should be paid to the safe evacuation of personnel when fighting.
To sum up, the storage and transportation of ethyl zirconate is important in moisture-proof, heat-proof, and away from strong oxides. It also pays attention to airtight and safety protection, but it is safe.
What are the safety precautions for Zirconia Acetate?
Ethyl zirconate, also a chemical, is mild in nature, but it must be used with caution. Although its properties are close to the middle, it belongs to the list of chemicals and should not be ignored. Workers use, the first heavy storage, should be sealed in a cool and dry place, away from fire sources and heat sources, do not co-store with strong oxidants, strong acids and alkalis, for fear of reaction changes and disasters. Wear gloves, goggles and protective clothing when touching to prevent skin from invading eyes. If you accidentally touch the skin, rinse with water urgently, and do not cause burning. Those who mistakenly enter the eyes should immediately rinse thoroughly with flowing water and seek medical attention urgently. Although its odor is not particularly strong, long-term inhalation is also harmful to the respiratory trachea. It should be used in well-ventilated places or with exhaust facilities to keep the air clean. In case of spilling, it is not advisable to wipe it directly by hand. It is advisable to collect the residue with an inert adsorbent and place it in a special container for proper disposal. Residual liquid and waste should be sent to a qualified institution for disposal in accordance with regulations. Do not discard it in the environment at will, or dump it in water or soil, for fear of pollution. In the operation room, it is advisable to have first aid medicine at any time. In case of an accident, emergency treatment can be provided. Do not let unrelated personnel stay near chemicals, let alone allow children to play in them. Book cabinets should be archived with clear labels to prevent misuse. After work, wash your hands and do not leave stains. All these things are the way to deal with the mouth safely. If you use them, you will be lucky, and if you waste them, you will be fierce. You can't be careless. Although ethyl zirconate is widely used, if you are negligent, a small disaster can easily brew into a big disaster. It is to be careful and operate according to norms, so you can be safe.
What are the Common Preparation Methods of Zirconium Acetate?
Acetic acid, which is called acetic acid, is a complex of acetate, and its method is multi-ended. However, if it is often used, the rate is as follows.
Or take a high, such as chlorination, nitric acid, dissolve in water, add glacial acetic acid dropwise, and mix at a low temperature to make acetic acid react and generate acetic acid. If the starting material of chlorination is used, acetic acid is treated, that is, acetic acid is precipitated, and then it is often or microscopic. The resulting solution, or in one step, precipitates a white solid, and is washed with acetic acid or water to obtain the product.
There are also oxidized raw materials, which are first coarse and deposited, and then baked to obtain oxidation. Then acetic acid is added to dissolve under low pressure, and insoluble matter is removed. The liquid solution is low, and acetic acid crystals are obtained. This method is convenient, saving a lot of steps, and only the obtained degree is slightly low.
There is still a lot of work. The oxidized acetic acid is used for high-quality reaction, and the amount of water or agglutination is low. When it is completely reversed, it is cooled, and then processed and crystallized. The obtained acetic acid can be used in ceramics, manufacturing, and other fields.
~~~~ process, or need to control the pH value, in order to facilitate coordination balance, or add oxygen to promote oxidation, improve the yield. Some new technologies use microwave or ultra-high-speed processing to improve the quality of finished products in a short period of time.
The use of acetic acid is unique in ancient and modern methods. It depends on the control of raw materials, anti-parts, and the subtlety of chemical methods. Technical performance is excellent, step by step, and the application of today is extensive, and the function is new.
Or take a high, such as chlorination, nitric acid, dissolve in water, add glacial acetic acid dropwise, and mix at a low temperature to make acetic acid react and generate acetic acid. If the starting material of chlorination is used, acetic acid is treated, that is, acetic acid is precipitated, and then it is often or microscopic. The resulting solution, or in one step, precipitates a white solid, and is washed with acetic acid or water to obtain the product.
There are also oxidized raw materials, which are first coarse and deposited, and then baked to obtain oxidation. Then acetic acid is added to dissolve under low pressure, and insoluble matter is removed. The liquid solution is low, and acetic acid crystals are obtained. This method is convenient, saving a lot of steps, and only the obtained degree is slightly low.
There is still a lot of work. The oxidized acetic acid is used for high-quality reaction, and the amount of water or agglutination is low. When it is completely reversed, it is cooled, and then processed and crystallized. The obtained acetic acid can be used in ceramics, manufacturing, and other fields.
~~~~ process, or need to control the pH value, in order to facilitate coordination balance, or add oxygen to promote oxidation, improve the yield. Some new technologies use microwave or ultra-high-speed processing to improve the quality of finished products in a short period of time.
The use of acetic acid is unique in ancient and modern methods. It depends on the control of raw materials, anti-parts, and the subtlety of chemical methods. Technical performance is excellent, step by step, and the application of today is extensive, and the function is new.
