Cyanuric Acid is also known as tricyanic acid; 2,4,6-trihydroxy-1,3,5-triazine; 2,4,6-trihydroxy-homotriazine (2,4,6-triazinettriol); homotriazine triol (sym-triazinetriol). White crystals, precipitated from water, with two crystalline water. Slightly bitter taste, basically non-toxic, soluble in hot water, slightly soluble in cold water, aqueous solution is acidic, soluble in aqueous solution of potassium hydroxide and sodium hydroxide, insoluble in cold alcohol, ether, benzene and other organic solvents. The chemical formula is C3H3N3O3, there are two isomers, i.e. ketone and enol structure, usually a mixture of two isomers.
Cyanuric Acid is mainly used in the manufacture of chlorinated derivatives for the synthesis of Cyanuric Acid formaldehyde resins, epoxy resins, herbicides and so on.
Physical properties of Cyanuric Acid
Melting point:℃ >360 (decomposition)
Density:g/cm3 2.50(anhydrous)
Relative density:0℃ 1.768
Solubility:Soluble in hot water; hot alcohol; pyridine; concentrated hydrochloric acid and sulfuric acid without decomposition, also soluble in sodium hydroxide and potassium hydroxide aqueous solution, slightly soluble in cold water, insoluble in cold alcohol; ether; acetone; benzene and chloroform.
Stability:Lose crystalline water when heated to 150℃, decompose to hydrocyanic acid and isocyanic acid at 300℃.
Company information
The company's main import and export products include
(1)Flavors and Fragrances:Fragrance: some from the natural world of plants and animals or by artificial single separate, synthetic and get the fragrance material called fragrance. Flavour: Flavour is a mixture of a variety of fragrances (sometimes also containing a certain amount of solvent) blended out of a certain aroma, can be used directly for product fragrance, can be widely used in perfumes, cosmetics, shower gels and other daily necessities.
(2)Polymers:The advantage of Polymers is that they can be easily formed into the desired shape using a variety of techniques such as solution casting, melt moulding, or machining. As a result, polymer-based implants are relatively inexpensive to manufacture. Polymers can also react so that different chemical molecules can attach to the surface of the implant, making it more compatible with the body's surroundings.