Are you facing pressure to reduce environmental impact while maintaining industrial performance? Imagine a solution that cuts petroleum dependency without compromising your production efficiency. Jiangyin Trust's biodegradable itaconic acid (CAS 97-65-4) delivers exactly that – a bio-based powerhouse transforming how factories approach material sourcing.
Unlike traditional petrochemicals, our itaconic acid is produced through industrial fermentation. We use agricultural byproducts like rice straw and starch as feedstocks, creating a truly circular economy solution. This fermentation process slashes carbon emissions by up to 68% compared to synthetic routes while maintaining cost competitiveness. For procurement managers navigating ESG mandates, this translates to quantifiable sustainability metrics you can report to stakeholders.
Don't mistake "biodegradable" for "fragile." With a melting point of 165-168°C, this white crystalline powder withstands demanding processing conditions. Its dual carboxyl groups and unsaturated double bond (molecular formula C₅H₆O₄) create exceptional reactivity – a chemical workhorse that outperforms many petroleum alternatives. Consider these measurable benefits:
Up to 23% reduction in polymer production cycles due to faster copolymerization
90% scale removal efficiency in cooling towers versus 15.2% for conventional agents
3% lower raw material waste through precise reaction control
Technical specs only matter if they impact your bottom line. Let's translate the data sheet into operational advantages.
That 165-168°C melting point isn't just a number – it's your guarantee against thermal degradation during compounding. While traditional additives might char at extrusion temperatures, our itaconic acid maintains integrity up to 268°C. For plant managers running injection molding lines, this means no more shutdowns to scrape burnt residue from barrels.
Why care about solubility specs? Because they determine your formulation flexibility. Water solubility allows direct incorporation into aqueous systems like adhesives. Acetone/ethanol compatibility enables solvent-based applications without extra processing steps. Even its slight solubility in benzene creates opportunities for niche formulations. This adaptability lets R&D teams innovate without changing entire production setups.
Scale buildup isn't just an annoyance – it's profit dripping down the drain. When copolymerized with acrylic acid, our itaconic acid achieves what sodium polyacrylate can't: removing stubborn 1.7mm thick hydroxyapatite deposits while equipment remains operational. No pH adjustment means no corrosion risk to your capital assets. One chemical plant reported $360,000 annual savings by eliminating acid wash downtime after switching.
That pKa value of 3.85 isn't just chemistry trivia. It enables controlled reactivity for precision polymer design. As a comonomer in acrylic fibers, it boosts dye adsorption by 40% while improving colorfastness. For PVC formulations, ester derivatives replace phthalate plasticizers under tightening regulatory pressure. This versatility makes it a true multi-tool for material scientists facing evolving compliance requirements.
With zero occupational poisoning cases reported, this material simplifies your safety protocols. The 198.7°C flash point and non-flammable nature reduce insurance premiums at storage facilities. Complete REACH/EPA compliance documentation comes standard – no more scrambling during audits. When a Midwest auto parts manufacturer switched, their safety incident rate dropped 18% within a quarter.
Struggling with synthetic fiber dyeing inconsistencies? As a polyacrylonitrile comonomer, our itaconic acid creates dye receptor sites in the polymer matrix. The result: 27% less dye usage while achieving deeper color penetration. One Turkish carpet producer slashed redye costs by $28/roll after implementation.
That molecular weight of 130.1 g/mol enables unique performance in specialty applications. In adhesives, it improves wet tack strength for faster bonding lines. For lubricants, it acts as a multifunctional additive preventing sludge formation. As a food-grade acidulant, it offers superior metal chelation versus citric acid – crucial for preserving flavor consistency in acidic beverages.
Technical superiority means nothing if the product degrades before use. Here's how we ensure performance integrity:
Double-barrier packaging (paper drum + PE liner) prevents the 1.573 g/mL density material from absorbing moisture during humid months
Cool (<30°C), dark storage conditions maintain crystal integrity - no caking issues disrupting your batching systems
Oxidizer separation protocols eliminate cross-contamination risks in shared warehouses
Specially designed vented containers prevent pressure buildup during temperature fluctuations. Our "no high-moisture transit" guarantee ensures you receive free-flowing powder, not solidified blocks. All shipments include spill containment kits – because we know your loading dock team shouldn't bear cleanup costs for transit damage.
Evaluating sustainable chemicals? Focus on these verified metrics:
Fermentation certification proving bio-based origin
Third-party biodegradation testing data (ASTM D5511)
Comparative cost-per-performance against petroleum alternatives
Documented safety record with MSDS compliance
Supplier consistency for long-term formulation stability
Jiangyin Trust's itaconic acid delivers on all fronts. From textile mills battling dye waste to water treatment plants fighting scale, this CAS 97-65-4 compound proves sustainability and performance aren't mutually exclusive – they're your new competitive advantage.
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.
Are you facing pressure to reduce environmental impact while maintaining industrial performance? Imagine a solution that cuts petroleum dependency without compromising your production efficiency. Jiangyin Trust's biodegradable itaconic acid (CAS 97-65-4) delivers exactly that – a bio-based powerhouse transforming how factories approach material sourcing.
Unlike traditional petrochemicals, our itaconic acid is produced through industrial fermentation. We use agricultural byproducts like rice straw and starch as feedstocks, creating a truly circular economy solution. This fermentation process slashes carbon emissions by up to 68% compared to synthetic routes while maintaining cost competitiveness. For procurement managers navigating ESG mandates, this translates to quantifiable sustainability metrics you can report to stakeholders.
Don't mistake "biodegradable" for "fragile." With a melting point of 165-168°C, this white crystalline powder withstands demanding processing conditions. Its dual carboxyl groups and unsaturated double bond (molecular formula C₅H₆O₄) create exceptional reactivity – a chemical workhorse that outperforms many petroleum alternatives. Consider these measurable benefits:
Up to 23% reduction in polymer production cycles due to faster copolymerization
90% scale removal efficiency in cooling towers versus 15.2% for conventional agents
3% lower raw material waste through precise reaction control
Technical specs only matter if they impact your bottom line. Let's translate the data sheet into operational advantages.
That 165-168°C melting point isn't just a number – it's your guarantee against thermal degradation during compounding. While traditional additives might char at extrusion temperatures, our itaconic acid maintains integrity up to 268°C. For plant managers running injection molding lines, this means no more shutdowns to scrape burnt residue from barrels.
Why care about solubility specs? Because they determine your formulation flexibility. Water solubility allows direct incorporation into aqueous systems like adhesives. Acetone/ethanol compatibility enables solvent-based applications without extra processing steps. Even its slight solubility in benzene creates opportunities for niche formulations. This adaptability lets R&D teams innovate without changing entire production setups.
Scale buildup isn't just an annoyance – it's profit dripping down the drain. When copolymerized with acrylic acid, our itaconic acid achieves what sodium polyacrylate can't: removing stubborn 1.7mm thick hydroxyapatite deposits while equipment remains operational. No pH adjustment means no corrosion risk to your capital assets. One chemical plant reported $360,000 annual savings by eliminating acid wash downtime after switching.
That pKa value of 3.85 isn't just chemistry trivia. It enables controlled reactivity for precision polymer design. As a comonomer in acrylic fibers, it boosts dye adsorption by 40% while improving colorfastness. For PVC formulations, ester derivatives replace phthalate plasticizers under tightening regulatory pressure. This versatility makes it a true multi-tool for material scientists facing evolving compliance requirements.
With zero occupational poisoning cases reported, this material simplifies your safety protocols. The 198.7°C flash point and non-flammable nature reduce insurance premiums at storage facilities. Complete REACH/EPA compliance documentation comes standard – no more scrambling during audits. When a Midwest auto parts manufacturer switched, their safety incident rate dropped 18% within a quarter.
Struggling with synthetic fiber dyeing inconsistencies? As a polyacrylonitrile comonomer, our itaconic acid creates dye receptor sites in the polymer matrix. The result: 27% less dye usage while achieving deeper color penetration. One Turkish carpet producer slashed redye costs by $28/roll after implementation.
That molecular weight of 130.1 g/mol enables unique performance in specialty applications. In adhesives, it improves wet tack strength for faster bonding lines. For lubricants, it acts as a multifunctional additive preventing sludge formation. As a food-grade acidulant, it offers superior metal chelation versus citric acid – crucial for preserving flavor consistency in acidic beverages.
Technical superiority means nothing if the product degrades before use. Here's how we ensure performance integrity:
Double-barrier packaging (paper drum + PE liner) prevents the 1.573 g/mL density material from absorbing moisture during humid months
Cool (<30°C), dark storage conditions maintain crystal integrity - no caking issues disrupting your batching systems
Oxidizer separation protocols eliminate cross-contamination risks in shared warehouses
Specially designed vented containers prevent pressure buildup during temperature fluctuations. Our "no high-moisture transit" guarantee ensures you receive free-flowing powder, not solidified blocks. All shipments include spill containment kits – because we know your loading dock team shouldn't bear cleanup costs for transit damage.
Evaluating sustainable chemicals? Focus on these verified metrics:
Fermentation certification proving bio-based origin
Third-party biodegradation testing data (ASTM D5511)
Comparative cost-per-performance against petroleum alternatives
Documented safety record with MSDS compliance
Supplier consistency for long-term formulation stability
Jiangyin Trust's itaconic acid delivers on all fronts. From textile mills battling dye waste to water treatment plants fighting scale, this CAS 97-65-4 compound proves sustainability and performance aren't mutually exclusive – they're your new competitive advantage.
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.
