jiangyin Trust offers biodegradable itaconic acid CAS 97-65-4 for compression fuel, a high-quality, environmentally friendly compound with a variety of industrial uses. Itaconic acid is produced by fermentation, making it a sustainable bio-based alternative to petroleum-derived chemicals.
The product appears as colorless crystals with a melting point of 165-168°C. It is soluble in water, acetone, ethanol, and methanol, and slightly soluble in chloroform and benzene. The molecular formula of itaconic acid is C5H6O4, and its molar mass is 130.1 g/mol. It exhibits a high density of 1.573 g/mL at 25°C and a boiling point of 268°C.
Itaconic acid is known for its versatility and is often used in the production of polyacrylonitrile fibers, plasticizers, and lubricant additives. Its pKa value of 3.85 indicates that it is weakly acidic in solution. The product is light-sensitive and hygroscopic, so it should be stored in a cool, dry place below 30°C.
Due to its wide range of applications, Itaconic Acid CAS 97-65-4 is an essential ingredient in the manufacture of high-performance polymers, coatings, adhesives and detergents. It provides outstanding performance and stability in industrial processes.
Itaconic acid (chemical name: methylene succinic acid, CAS No.: 97-65-4) is an organic carboxylic acid raw material with high chemical activity. It appears as a white crystalline powder with a unique odor and obvious hygroscopicity. Its molecular formula is C₅H₆O₄ and molecular weight is 130.099. The molecular structure contains unsaturated double bonds and dicarboxyl groups, endowing it with excellent polymerization and copolymerization capabilities. It can react with various monomers such as acrylonitrile, styrene, and acrylic acid, making it an indispensable core intermediate in the chemical industry. The product is accompanied by Chinese and English versions of MSDS (Material Safety Data Sheet), complying with international chemical safety management standards, which ensures safer use and operation.
When used as a water treatment agent, its copolymer with acrylic acid achieves a scale removal rate of up to 90% for industrial hard scale, far exceeding that of traditional sodium polyacrylate (only 15.2%). It allows on-line cleaning during normal equipment operation without the need to lower the pH value.
The mainstream production method is industrial fermentation, using agricultural and sideline products such as starch, sucrose, and rice straw as raw materials. It is green, low-carbon, and cost-controllable, meeting the requirements of sustainable development.
It has multiple properties including monomer polymerization, functional additive, and modifier, covering polymer synthesis, water treatment, daily chemicals, textiles and other fields, adapting to diverse production needs.
It has low toxicity with no reported occupational poisoning cases, and can be operated with conventional protection. It has stable chemical properties under normal temperature and pressure, and good compatibility with most non-incompatible materials.
The melting point ranges from 165-168℃, it sublimes at 268℃ under normal pressure, the density is 1.4±0.1g/cm³, and the flash point is 198.7℃. It is not flammable or explosive, ensuring high safety in storage and processing.
It is slightly soluble in non-polar solvents such as benzene and chloroform, and easily soluble in polar solvents such as water, ethanol, and acetone, adapting to production processes of different systems.
It can polymerize by itself to form homopolymers, and also copolymerize with various monomers to generate polymers with different properties. It is prone to decomposition when overheated, so high-temperature environments should be avoided.
Although it has potential pollution risks to water bodies, environmental discharge requirements can be met and ecological impacts can be controlled by standardizing the treatment of leaks and waste materials.
As a key monomer, it is used in the production of synthetic fibers, synthetic resins, plastics, and ion exchange resins. Its ester derivatives can be used as polyvinyl chloride plasticizers or copolymerized with styrene to improve material properties, widely applied in the production of plastic products and resin products.
Polymers copolymerized with acrylic acid and methacrylic acid are efficient water treatment agents and chemical cleaning agents. They are suitable for removing hard scale in circulating cooling water systems, capable of treating 0.01-1.7mm thick scale composed of hydroxyapatite and magnesium silicate. The cleaning cycle is 10-60 days with mild conditions that do not affect equipment operation.
It can be used as an acidulant, pH regulator, and metal chelating agent in food and daily chemical products. In the industrial field, it serves as the core raw material for lubricating oil additives, boiler descaling agents, adhesives, and herbicides, enhancing product performance.
As a comonomer of polyacrylonitrile, it can significantly improve the dyeing performance of synthetic fibers, increasing dye adsorption rate and color fastness. Meanwhile, it can be used in the preparation of carpet backing agents, paper coating agents, and coating dispersion latex, enhancing material adhesion and stability.
- It should be packed in sealed paper drums lined with plastic bags and stored in a cool, dry, and ventilated warehouse, avoiding direct sunlight.
- Keep away from ignition sources, heat sources, and incompatible materials such as oxidants and alkalis. Mixed storage is strictly prohibited. The warehouse should be equipped with corresponding fire-fighting equipment and leakage containment materials.
- Pay attention to moisture-proof and heat-proof measures to avoid caking or performance changes due to moisture absorption.
- Transport vehicles should have ventilation and moisture-proof conditions, and transportation in high-temperature and rain environments should be avoided.
- Handle with care during loading and unloading to prevent dust leakage caused by packaging damage. During transportation, it should be isolated from incompatible dangerous goods such as oxidants and alkalis.
- Smoking and eating are strictly prohibited at the operation site. Handlers should wear protective equipment such as dust masks and rubber gloves.
1. What is Itaconic Acid CAS 97-65-4?
Itaconic acid (CAS 97-65-4) is a biodegradable, bio-based organic compound with a wide range of industrial applications. It is commonly used as a monomer in polymer production, as well as in coatings, detergents, adhesives, and pharmaceuticals.
2. How is Itaconic Acid CAS 97-65-4 produced?
Itaconic acid is produced through a natural fermentation process of sugars by microorganisms such as Aspergillus terreus. This makes it an environmentally friendly and sustainable alternative to petroleum-based chemicals.
3. What are the advantages of using Itaconic Acid CAS 97-65-4 for Compressed Fuel?
Itaconic acid is a sustainable alternative to petroleum-based monomers. It improves polymer properties, enhances detergent effectiveness, and is non-toxic and cost-effective. In addition, it is safe for consumer products, helping to reduce environmental impact.
4. What are the main applications of Itaconic Acid CAS 97-65-4?
Itaconic acid has a wide range of uses, including:
· Polymer production (superabsorbent polymers, hydrogels)
· Coatings and paints (for bonding, durability and flexibility)
· Adhesives (for stronger bonds)
· Textile treatment (for improving fabric properties)
· Drug synthesis (as an intermediate compound)
· Plasticizer and lubricant additive.
5. Is Itaconic Acid CAS 97-65-4 safe to handle?
Yes, itaconic acid is relatively non-toxic and safe to handle in industrial processes. However, as with any chemical, it should be handled according to appropriate safety guidelines.
6. Can Itaconic Acid CAS 97-65-4 be used in sustainable products?
Yes, itaconic acid is a biodegradable, bio-based compound suitable for use in the production of sustainable, environmentally friendly materials and chemicals.
7. How should Itaconic Acid CAS 97-65-4 be stored?
Itaconic acid should be stored in a cool, dry place away from direct sunlight and heat sources. Make sure the container is tightly sealed to maintain product stability.
jiangyin Trust offers biodegradable itaconic acid CAS 97-65-4 for compression fuel, a high-quality, environmentally friendly compound with a variety of industrial uses. Itaconic acid is produced by fermentation, making it a sustainable bio-based alternative to petroleum-derived chemicals.
The product appears as colorless crystals with a melting point of 165-168°C. It is soluble in water, acetone, ethanol, and methanol, and slightly soluble in chloroform and benzene. The molecular formula of itaconic acid is C5H6O4, and its molar mass is 130.1 g/mol. It exhibits a high density of 1.573 g/mL at 25°C and a boiling point of 268°C.
Itaconic acid is known for its versatility and is often used in the production of polyacrylonitrile fibers, plasticizers, and lubricant additives. Its pKa value of 3.85 indicates that it is weakly acidic in solution. The product is light-sensitive and hygroscopic, so it should be stored in a cool, dry place below 30°C.
Due to its wide range of applications, Itaconic Acid CAS 97-65-4 is an essential ingredient in the manufacture of high-performance polymers, coatings, adhesives and detergents. It provides outstanding performance and stability in industrial processes.
Itaconic acid (chemical name: methylene succinic acid, CAS No.: 97-65-4) is an organic carboxylic acid raw material with high chemical activity. It appears as a white crystalline powder with a unique odor and obvious hygroscopicity. Its molecular formula is C₅H₆O₄ and molecular weight is 130.099. The molecular structure contains unsaturated double bonds and dicarboxyl groups, endowing it with excellent polymerization and copolymerization capabilities. It can react with various monomers such as acrylonitrile, styrene, and acrylic acid, making it an indispensable core intermediate in the chemical industry. The product is accompanied by Chinese and English versions of MSDS (Material Safety Data Sheet), complying with international chemical safety management standards, which ensures safer use and operation.
When used as a water treatment agent, its copolymer with acrylic acid achieves a scale removal rate of up to 90% for industrial hard scale, far exceeding that of traditional sodium polyacrylate (only 15.2%). It allows on-line cleaning during normal equipment operation without the need to lower the pH value.
The mainstream production method is industrial fermentation, using agricultural and sideline products such as starch, sucrose, and rice straw as raw materials. It is green, low-carbon, and cost-controllable, meeting the requirements of sustainable development.
It has multiple properties including monomer polymerization, functional additive, and modifier, covering polymer synthesis, water treatment, daily chemicals, textiles and other fields, adapting to diverse production needs.
It has low toxicity with no reported occupational poisoning cases, and can be operated with conventional protection. It has stable chemical properties under normal temperature and pressure, and good compatibility with most non-incompatible materials.
The melting point ranges from 165-168℃, it sublimes at 268℃ under normal pressure, the density is 1.4±0.1g/cm³, and the flash point is 198.7℃. It is not flammable or explosive, ensuring high safety in storage and processing.
It is slightly soluble in non-polar solvents such as benzene and chloroform, and easily soluble in polar solvents such as water, ethanol, and acetone, adapting to production processes of different systems.
It can polymerize by itself to form homopolymers, and also copolymerize with various monomers to generate polymers with different properties. It is prone to decomposition when overheated, so high-temperature environments should be avoided.
Although it has potential pollution risks to water bodies, environmental discharge requirements can be met and ecological impacts can be controlled by standardizing the treatment of leaks and waste materials.
As a key monomer, it is used in the production of synthetic fibers, synthetic resins, plastics, and ion exchange resins. Its ester derivatives can be used as polyvinyl chloride plasticizers or copolymerized with styrene to improve material properties, widely applied in the production of plastic products and resin products.
Polymers copolymerized with acrylic acid and methacrylic acid are efficient water treatment agents and chemical cleaning agents. They are suitable for removing hard scale in circulating cooling water systems, capable of treating 0.01-1.7mm thick scale composed of hydroxyapatite and magnesium silicate. The cleaning cycle is 10-60 days with mild conditions that do not affect equipment operation.
It can be used as an acidulant, pH regulator, and metal chelating agent in food and daily chemical products. In the industrial field, it serves as the core raw material for lubricating oil additives, boiler descaling agents, adhesives, and herbicides, enhancing product performance.
As a comonomer of polyacrylonitrile, it can significantly improve the dyeing performance of synthetic fibers, increasing dye adsorption rate and color fastness. Meanwhile, it can be used in the preparation of carpet backing agents, paper coating agents, and coating dispersion latex, enhancing material adhesion and stability.
- It should be packed in sealed paper drums lined with plastic bags and stored in a cool, dry, and ventilated warehouse, avoiding direct sunlight.
- Keep away from ignition sources, heat sources, and incompatible materials such as oxidants and alkalis. Mixed storage is strictly prohibited. The warehouse should be equipped with corresponding fire-fighting equipment and leakage containment materials.
- Pay attention to moisture-proof and heat-proof measures to avoid caking or performance changes due to moisture absorption.
- Transport vehicles should have ventilation and moisture-proof conditions, and transportation in high-temperature and rain environments should be avoided.
- Handle with care during loading and unloading to prevent dust leakage caused by packaging damage. During transportation, it should be isolated from incompatible dangerous goods such as oxidants and alkalis.
- Smoking and eating are strictly prohibited at the operation site. Handlers should wear protective equipment such as dust masks and rubber gloves.
1. What is Itaconic Acid CAS 97-65-4?
Itaconic acid (CAS 97-65-4) is a biodegradable, bio-based organic compound with a wide range of industrial applications. It is commonly used as a monomer in polymer production, as well as in coatings, detergents, adhesives, and pharmaceuticals.
2. How is Itaconic Acid CAS 97-65-4 produced?
Itaconic acid is produced through a natural fermentation process of sugars by microorganisms such as Aspergillus terreus. This makes it an environmentally friendly and sustainable alternative to petroleum-based chemicals.
3. What are the advantages of using Itaconic Acid CAS 97-65-4 for Compressed Fuel?
Itaconic acid is a sustainable alternative to petroleum-based monomers. It improves polymer properties, enhances detergent effectiveness, and is non-toxic and cost-effective. In addition, it is safe for consumer products, helping to reduce environmental impact.
4. What are the main applications of Itaconic Acid CAS 97-65-4?
Itaconic acid has a wide range of uses, including:
· Polymer production (superabsorbent polymers, hydrogels)
· Coatings and paints (for bonding, durability and flexibility)
· Adhesives (for stronger bonds)
· Textile treatment (for improving fabric properties)
· Drug synthesis (as an intermediate compound)
· Plasticizer and lubricant additive.
5. Is Itaconic Acid CAS 97-65-4 safe to handle?
Yes, itaconic acid is relatively non-toxic and safe to handle in industrial processes. However, as with any chemical, it should be handled according to appropriate safety guidelines.
6. Can Itaconic Acid CAS 97-65-4 be used in sustainable products?
Yes, itaconic acid is a biodegradable, bio-based compound suitable for use in the production of sustainable, environmentally friendly materials and chemicals.
7. How should Itaconic Acid CAS 97-65-4 be stored?
Itaconic acid should be stored in a cool, dry place away from direct sunlight and heat sources. Make sure the container is tightly sealed to maintain product stability.
