Cathodic electro-deposition of low-temperature curable water-soluble polyepoxide coatings

Epoxidised phenol-novolac (EPN) type of polyepoxide resin was used for deve loping water-soluble cathodically electro-depositable coatings which could be self-curable without using any external/additional cross-linking agent. The self-curing of cathodically deposited films could be effected at a low temperature of 80 degreesC in 30 min, as compared to 150-170 degreesC in 30 min practised presently in many commercial cathodic electro-deposition (CE D) installations. In this work, effect of varying molar ratio of secondary amines such as diethanol amine (DEtOA) and diethyl amine to epoxidised phen ol-novolac (EPN) on the solubility of EPN-secondary amine adducts prepared at 80, 60 and 30 degreesC for varying reaction times was investigated. Self -curing characteristics of EPN-DEtOA (1:2 moles) adduct at 30-160 degreesC were studied. Kinetics of film growth during CED was investigated by using aqueous soluti ons of acetic acid neutralised EPN-DEtOA (1:2 moles) adduct. Variables for kinetic studies were deposition time (30-600s), applied voltage (5-250V) an d solution concentration (1-20% (w/w)). By carrying out CED of polyepoxide films, values of electro-deposition (ED) characteristics found were: ED yie ld as 5.89 mg/cm(2) Coulombic yield as 19.78 mg/C and dry film thickness (D FT) as 52.12 mum Plots of DFT vs, deposition time (t), DFT vs. t(1/2) and c urrent density vs. field strength were drawn to calculate the values of Cou lombic efficiency of the process and film conductivity. Cathodically electr o-deposited films were finally characterised for physical properties, chemi cal resistance and corrosion protection. (C) 2000 Elsevier Science S.A. All rights reserved.