Cyclohexylamine Chemical Properties and Its Role as a Corrosion Inhibitor
Cyclohexylamine (CAS 108-91-8) is a chemical compound that possesses a unique set of properties making it invaluable across various industrial applications, most notably as a corrosion inhibitor. Understanding these chemical properties is key to appreciating its functional significance.
Physically, Cyclohexylamine is a colorless to pale yellow liquid, characterized by a strong, somewhat fishy, ammonia-like odor. Its molecular formula is C6H13N, with a molecular weight of approximately 99.18 g/mol. It has a relatively low melting point of -17.7 °C and a boiling point of 134.5 °C, with a flash point of 32 °C, indicating its flammability.
One of its most significant chemical attributes is its solubility. Cyclohexylamine is miscible with water, meaning it dissolves completely in water. It also mixes readily with common organic solvents such as ethanol, ethyl ether, acetone, and benzene. This broad solubility profile enhances its utility in diverse formulations and applications.
As a corrosion inhibitor, Cyclohexylamine functions primarily as a neutralizing amine. In boiler water systems, it is injected into the water supply, where it evaporates with steam. Upon condensing, it neutralizes carbonic acid (CO2), thereby raising the pH of the condensate and preventing acid corrosion in steam and condensate pipelines. Its distribution coefficient in steam and condensate (2-3) allows it to effectively protect sections of the system located away from the boiler itself.
The effectiveness of Cyclohexylamine as a corrosion inhibitor is further bolstered by its chemical structure, which allows it to interact with metal surfaces. While specific mechanisms can be complex, amines like Cyclohexylamine can form protective films on metal surfaces, creating a barrier against corrosive elements. This property is vital for maintaining the integrity of metal infrastructure in environments exposed to moisture and acidic conditions.
Beyond corrosion inhibition, its chemical reactivity makes it a valuable intermediate. Its amine group readily participates in reactions, facilitating the synthesis of pharmaceuticals, agrochemicals, and sweeteners. The chemical properties of Cyclohexylamine are fundamental to its role in these diverse synthesis pathways.
For industries that depend on its protective qualities, understanding the chemical properties of Cyclohexylamine is paramount. Whether for water treatment or as a raw material for further chemical synthesis, its specific attributes ensure efficient and effective performance.
Physically, Cyclohexylamine is a colorless to pale yellow liquid, characterized by a strong, somewhat fishy, ammonia-like odor. Its molecular formula is C6H13N, with a molecular weight of approximately 99.18 g/mol. It has a relatively low melting point of -17.7 °C and a boiling point of 134.5 °C, with a flash point of 32 °C, indicating its flammability.
One of its most significant chemical attributes is its solubility. Cyclohexylamine is miscible with water, meaning it dissolves completely in water. It also mixes readily with common organic solvents such as ethanol, ethyl ether, acetone, and benzene. This broad solubility profile enhances its utility in diverse formulations and applications.
As a corrosion inhibitor, Cyclohexylamine functions primarily as a neutralizing amine. In boiler water systems, it is injected into the water supply, where it evaporates with steam. Upon condensing, it neutralizes carbonic acid (CO2), thereby raising the pH of the condensate and preventing acid corrosion in steam and condensate pipelines. Its distribution coefficient in steam and condensate (2-3) allows it to effectively protect sections of the system located away from the boiler itself.
The effectiveness of Cyclohexylamine as a corrosion inhibitor is further bolstered by its chemical structure, which allows it to interact with metal surfaces. While specific mechanisms can be complex, amines like Cyclohexylamine can form protective films on metal surfaces, creating a barrier against corrosive elements. This property is vital for maintaining the integrity of metal infrastructure in environments exposed to moisture and acidic conditions.
Beyond corrosion inhibition, its chemical reactivity makes it a valuable intermediate. Its amine group readily participates in reactions, facilitating the synthesis of pharmaceuticals, agrochemicals, and sweeteners. The chemical properties of Cyclohexylamine are fundamental to its role in these diverse synthesis pathways.
For industries that depend on its protective qualities, understanding the chemical properties of Cyclohexylamine is paramount. Whether for water treatment or as a raw material for further chemical synthesis, its specific attributes ensure efficient and effective performance.
Perspectives & Insights
Silicon Analyst 88
“In boiler water systems, it is injected into the water supply, where it evaporates with steam.”
Quantum Seeker Pro
“Upon condensing, it neutralizes carbonic acid (CO2), thereby raising the pH of the condensate and preventing acid corrosion in steam and condensate pipelines.”
Bio Reader 7
“Its distribution coefficient in steam and condensate (2-3) allows it to effectively protect sections of the system located away from the boiler itself.”