Cyclohexanone Oxime, identified by CAS number 100-64-1, is an organic compound that plays a significant role in industrial chemistry. As a tan crystalline solid, it possesses a distinct set of physical and chemical properties that make it highly valuable as an intermediate. Understanding these characteristics is fundamental for R&D scientists and product formulators looking to utilize this compound effectively. This overview details its properties and primary applications.

Physically, Cyclohexanone Oxime typically appears as tan crystals with a melting point ranging from 88 to 91 °C. It exhibits a moderate solubility in water, approximately 16 g/kg at 20 °C, and is soluble in various organic solvents. Its boiling point is around 204-206 °C at standard pressure, and it has a flash point of 110 °C. Chemically, the presence of the oxime group (C=N-OH) dictates its reactivity. This functional group is amenable to various transformations, most notably the Beckmann rearrangement.

The most prominent industrial application of Cyclohexanone Oxime is its conversion into ε-caprolactam, the monomer for Nylon 6. This transformation is a classic example of the Beckmann rearrangement, a reaction widely employed in the chemical industry. Beyond Nylon 6, Cyclohexanone Oxime serves as a versatile intermediate in the synthesis of other organic compounds, including amines and potentially in the development of pharmaceutical precursors. Its reliable performance in these synthesis routes makes it a sought-after material for manufacturers.

For companies seeking to purchase Cyclohexanone Oxime (CAS 100-64-1), sourcing from a reputable manufacturer or supplier ensures the necessary purity and consistent quality for their processes. Understanding its properties allows for precise formulation and application, whether for large-scale polymer production or specialized organic synthesis. When inquiring about price, it's beneficial to consider these fundamental characteristics and their impact on your intended use.