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Specifications
| Appearance | Colorless transparent liquid, no mechanical impurities |
| Assay | 99.5% min |
| n-Butylamine | 0.1% max |
| Tri-n-butylamine | 0.1% max |
| N-butanol | 0.1% max |
| Water | 0.1% max |
| Chroma | 15 max |
Transport Information
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Parameter |
Specification |
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UN Number |
2248 |
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Class |
3; 8 |
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Packing Group |
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H.S. Code |
2921199090306 |
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Stability & Reactivity |
The product is chemically stable under standard ambient conditions. |
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Storage |
Keep container tightly closed in a dry and well-ventilated place. Keep away from heat and sources of ignition. Keep locked up or in an area accessible only to qualified or authorized persons. |
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Condition to Avoid |
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Package |
Manufacturing Information
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Parameter |
Specification |
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Capacity |
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Frequency |
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Main Export Countries |
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Capacity/Batch |
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Experience |
Production since 2009 |
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Stock |
In stock |
Applications
Dibutylamine (CAS 111-92-2) is a secondary aliphatic amine widely used as an intermediate in chemical manufacturing and industrial processes. Its main applications include the synthesis of agrochemicals, pharmaceuticals, rubber chemicals, and corrosion inhibitors. In the agricultural sector, it serves as a key building block for herbicides, fungicides, and pesticides, enhancing crop protection formulations. Within the pharmaceutical industry, dibutylamine is used as a starting material for active pharmaceutical ingredients (APIs) and excipients. It also finds application in the production of vulcanization accelerators and stabilizers in the rubber industry, improving elasticity and durability of finished products. Additionally, dibutylamine contributes to the formulation of fuel and lubricant additives, surfactants, and polymerization inhibitors, supporting the performance and longevity of industrial systems.
Benefits
The benefits of dibutylamine lie in its versatility, reactivity, and cost-effectiveness. Its secondary amine structure makes it highly adaptable for forming salts, amides, and other derivatives, which broadens its utility across diverse industries. By acting as a reliable intermediate, it allows manufacturers to streamline production processes and optimize yields in downstream synthesis. Its role in agrochemicals and pharmaceuticals contributes to improved agricultural productivity and human health solutions, while its function in rubber and fuel additives enhances product stability, performance, and service life. Furthermore, dibutylamine's efficiency as a chemical building block helps reduce production costs and provides industries with a dependable raw material to meet large-scale manufacturing demands.
Conclusion
In conclusion, dibutylamine is an important industrial chemical that underpins multiple sectors through its wide-ranging applications and functional benefits. Its adaptability in synthesis, combined with its performance-enhancing roles in agriculture, healthcare, and materials science, underscores its continued value in modern industry. As a cost-effective and versatile intermediate, it remains a cornerstone chemical that supports both innovation and efficiency in diverse applications.

