Diseño de un sistema de evaluación del desprendimiento catódico aplicado a revestimientos de tuberías enterradas

Abstract

CONDITION FOR PUBLICATION OF PROJECT. The objective of this work was to design and build a potentiostatic experimental system, in accordance with ASTM G8, to quantify cathodic disbondment in epoxy coatings for buried pipelines. The setup—comprising a test cell and a control panel—held the potential close to −1.5 V vs Cu/CuSO₄ within the protection window. Two surface preparation levels were assessed, SP2 mechanical cleaning and SP10 near-white blast cleaning, together with two epoxy systems, RE1 and RE2; performance was evaluated by the percentage of area disbonded after cathodic exposure and by pull-off adhesion testing. Under SP2, average disbondment reached 5.4% for RE1 and 14.8% for RE2; with SP10 those values decreased to 2.7% and 2.3%, respectively. In SP10, pull-off adhesion averaged 8.95 MPa for both coatings—consistent with the 8–10 MPa reference range—and failure was predominantly cohesive, consistent with effective mechanical anchoring from the blasted profile and adequate chemical bonding to the steel. Overall, the system enabled precise potential control and made the influence of surface preparation on performance evident, with RE2 showing the lowest disbondment under SP10. Keywords: cathodic disbondment; epoxy coatings; surface preparation; pull-off adhesion; cathodic protection