What is the pH stability of hydroxyethylcellulose?

Hydroxyethylcellulose (HEC) is a water-soluble polymer that is widely used in various applications such as adhesives, coatings, and personal care products. The pH stability of HEC depends on several factors, including the specific grade of HEC, the pH range of the application, and the duration of exposure to the pH environment.

HEC is typically stable within a pH range of 2-12, which covers a wide range of acidic to alkaline conditions. However, prolonged exposure to extreme pH conditions can cause the HEC to degrade, resulting in a loss of its thickening and stabilizing properties.

At acidic pH values, below a pH of 2, HEC can undergo hydrolysis, leading to a decrease in molecular weight and a reduction in viscosity. At very high alkaline pH values, above pH 12, HEC can undergo alkaline hydrolysis, leading to a loss of its thickening and stabilizing properties.

The pH stability of HEC can also be affected by the presence of other chemicals in the formulation, such as salts or surfactants, which can impact the pH and ionic strength of the solution. In some cases, adding acid or base may be necessary to adjust the pH and maintain the stability of the HEC solution.

Overall, HEC is generally stable within a wide pH range, but it is important to consider the specific application and formulation conditions to ensure that the HEC maintains its desired properties over time.