Use of p,p′-Phenolphthalein-bis(trimellitic) Dianhydride for Hardening Low Molecular Weight Epoxy Resins

Abstract

Abstract Hardening of a low molecular epoxy resin with p,p′-phenol-phthalein-bis(trimellitic) dianhydride has been studied by using differential scanning calorimetry. The relationships of glass transition temperature of the systems being examined versus time, temperature of hardening, and dianhydride content in the compositions have been determined. The activation energy of crosslinking reactions in systems containing 50% of the stoichiometric amount of dianhydride has been evaluated. The value of activation energy obtained indicates a high reactivity of dianhydride in the examined reactions. The hardened epoxy composition exhibits excellent thermal stability, good hardness, and good resistance to acid solutions. During research on soluble, regularly alternating polyesterimides, a synthesis of p,p′-phenolphthalein-bis(trimellitic) dianhydride was carried out and thus a new compound obtained [1]. The presence in the molecule of this new compound of four functional groups capable of reacting with epoxy groups and good solubility in organic solvents and low molecular epoxy resins suggested the use of this compound as a hardening agent for liquid resins. Examinations of the hardening process were conducted by using a low molecular epoxy resin (Beckopox 37–140) which is equivalent to Epidiane 5 and Epikotc 828.