Understanding the Significance of CAS Number 27329-26-4 in Chemical Safety and Regulation

In the realm of chemical research and industry, the use of Chemical Abstracts Service (CAS) numbers is critical for identifying specific chemical substances. The CAS number 27329-26-4 corresponds to a unique compound that has implications in various domains, including industrial applications, pharmaceuticals, and environmental safety. Understanding this compound, its characteristics, uses, and regulatory status, is essential for chemists, manufacturers, and policymakers alike.

The Importance of CAS Numbers

CAS numbers serve as universal identifiers for chemical substances, allowing professionals to avoid confusion that may arise from the use of different names for the same compound. Each CAS number is assigned to a specific chemical substance, including elemental substances, compounds, and mixtures. The unique identifier ensures that communication about chemical substances is unambiguous, which is particularly vital in regulatory frameworks and research.

CAS 27329-26-4 is known as Cyclohexylamine, a cyclic compound that is structurally characterized by the presence of a six-membered carbon ring with an amino group (-NH2) attached. This simple amine is colorless to pale yellow and has a distinctive odor reminiscent of ammonia. Its molecular formula is C6H13N, and it possesses a molecular weight of approximately 113.17 g/mol.

Applications of Cyclohexylamine

Cyclohexylamine and its derivatives find use in various applications across multiple sectors

1. Chemical Intermediates Cyclohexylamine is utilized as an intermediate in the synthesis of numerous chemical products. It serves as a precursor for different agrochemicals, pharmaceuticals, and dyes, highlighting its versatility in industrial chemistry.

2. Corrosion Inhibitors Its amine properties allow cyclohexylamine to function effectively as a corrosion inhibitor in various industrial applications, protecting metal surfaces from degradation in the presence of moisture and other corrosive agents.

3. Rubber Industry In the rubber industry, cyclohexylamine is employed in the production of accelerators and vulcanizing agents, which are crucial for improving the properties of rubber materials, enhancing their durability and elasticity.

4. Pharmaceuticals It has also been investigated for its potential therapeutic applications, including its role in synthesizing pharmaceuticals that target various medical conditions.

Safety and Regulatory Considerations

Despite its numerous applications, cyclohexylamine poses certain safety and health risks. Exposure can lead to irritation of the skin, eyes, and respiratory system. Chronic exposure may result in more serious effects, emphasizing the need for proper handling and usage guidelines.

Regulatory bodies, such as the Environmental Protection Agency (EPA) and the Occupational Safety and Health Administration (OSHA) in the United States, have established guidelines and permissible exposure limits for cyclohexylamine. These regulations are crucial in ensuring the safety of workers and the environment when using this chemical.

For companies involved in the manufacturing or handling of cyclohexylamine, compliance with workplace safety standards and environmental regulations is imperative. Proper safety data sheets (SDS) should be readily available, detailing the properties, hazards, and safe handling practices associated with this compound.

Conclusion

The significance of CAS number 27329-26-4, representing cyclohexylamine, cannot be understated. It serves as a vital link in the long chain of chemical production, research, and application. Understanding its properties, uses, and safety implications is essential for anyone involved in its handling or application.

As we continue to explore the world of chemicals, it becomes increasingly important to focus on safety, regulatory compliance, and environmental sustainability. The role of chemical substances like cyclohexylamine in various industries illustrates the intricate relationship between chemistry and everyday life. Through responsible management and informed practices, we can harness the benefits of such compounds while minimizing their potential risks.