Hexanedioic acid is produced on an industrial scale via a two-step process. In the first step, a mixture of cyclohexanol and cyclohexanone undergoes oxidation in the presence of a nitric acid/acetic acid catalyst system to form a mixture of cyclohexanone oxime and cyclohexanol oxime. This mixture is then hydrolyzed using sulfuric acid to yield hexanedioic acid.
Hexanedioic acid is an organic compound with the formula (CH2)4(COOH)2. It is a white, crystalline, water-soluble solid. Some of its key properties that make it useful commercially include its six-carbon backbone that allows it to acted as a synthetic substitute for hexamethylenediamine, its acidity due to the two carboxyl groups, and its solid state at room temperature which enables ease of handling and transport. Its melting point is 151°C and boiling point is 320°C.
Uses in Nylon Production
By far the largest application and consumer of Adipic Acid is in the production of nylon 66. In this process, hexanedioic acid reacts with hexamethylenediamine to form the polyamide polymer known as nylon 66. Nylon 66 is used extensively to produce fibers, films and engineering resins. Its properties such as high strength, flexibility and toughness have made nylon 66 an essential material in everything from fabrics and clothing to carpets, ropes and wires. The fiber has good resistance to abrasion, sunlight and detergents, making it ideal for carpets and upholstery. Films produced from nylon 66 have applications as food packaging and garbage container lining.
Other Synthetic Polymer Production
Besides nylon 66, Adipic Acid also finds use as a monomer in making other synthetic polyamides and polyesters that have wide-ranging applications. It can react with diamines like dodecamethylenediamine and dimer acid to produce nylon 610 and nylon 612. These polymers demonstrate good dimensional stability, weatherability and chemical resistance and are used in engineering plastics and automotive parts. Hexanedioic acid is also used to synthesize poly(butylene adipate-co-terephthalate) or PBAT, which is a biodegradable polyester alternative to conventional PET in applications like compostable shopping bags and food packaging.
Production of Plasticizers
Adipic Acid derivatives like dioctyl adipate, diisononyl adipate and bis(2-ethylhexyl) adipate are commonly used as high-quality plasticizers. Almost 30% of the hexanedioic acid manufactured globally is consumed in making these plasticizers. They are added to PVC to make it soft and flexible for applications like wires and cables, automobile interior parts, flooring and waterproof sheeting. Plasticized PVC demonstrates better longevity, lower temperature sensitivity and stronger resistance to chemicals compared to other plasticizers.
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