Adipic Acid, scientifically known as Hexanedioic Acid (CAS 124-04-9), is a white crystalline powder that holds significant importance in the global chemical market. Its distinct physical and chemical properties have cemented its role as a key intermediate in numerous industrial processes.

Physically, Adipic Acid presents as an odorless, white crystalline solid with a notable sour taste. It exhibits a melting point of approximately 151-154°C and is readily soluble in alcohols and acetone, though its solubility in water is moderate. The compound's low hygroscopicity is a valuable characteristic, especially for applications in dry powdered products.

Industrially, Adipic Acid is primarily synthesized through the oxidation of a mixture of cyclohexanol and cyclohexanone, often referred to as KA oil, using nitric acid. While effective, this method is known to produce nitrous oxide (N2O), a potent greenhouse gas. Consequently, there is ongoing research and development into more environmentally friendly synthesis routes, including bio-based methods that utilize renewable feedstocks. Understanding the various adipic acid synthesis pathways is crucial for anticipating market shifts and sustainability trends.

The chemical properties of Adipic Acid are central to its wide-ranging applications. As a dicarboxylic acid, it readily undergoes esterification, amidation, and salt formation reactions. These reactions are fundamental to its use in creating polyurethanes, plasticizers, lubricants, and most notably, Nylon 6,6. The ability to control the adipic acid price manufacturer landscape often hinges on the efficiency and environmental impact of these production methods.

Market trends for Adipic Acid are largely driven by demand from the automotive, textile, and construction industries, which are major consumers of nylon and polyurethane products. Growth in these sectors, particularly in emerging economies, fuels the demand for Adipic Acid. However, stringent environmental regulations concerning N2O emissions are also influencing production methods and encouraging innovation in greener manufacturing processes.

For businesses looking to procure Adipic Acid, it is vital to stay informed about market dynamics, including raw material costs, production capacities, and regulatory changes. The reliability of adipic acid suppliers and their commitment to quality assurance are also key considerations when evaluating the adipic acid industrial applications.

In conclusion, Adipic Acid (CAS 124-04-9) remains a cornerstone chemical intermediate, with its market influenced by industrial demand, technological advancements in synthesis, and environmental considerations. Its continued importance across diverse sectors ensures its sustained relevance in the global chemical industry.