Purpose: Surface treatment of zirconia before cementation can be performed using different methods, e.g. airborne particle abrasion (APA) or various etching protocols. This study evaluated the effect of storage time between surface treatment and cementation on the surface free energy (SFE) of zirconia, the bond strength of composite cement, and failure mode. Materials and Methods: Rod-shaped zircon is specimens were fabricated and assigned to two surface treatment groups: APA (n = 80) and hot etching with potassium hydrogen difluoride (KH F-2, n = 80). Each group was divided into four storage time subgroups: immediate, 24 h, 1 week, and 1 month. After storage, specimens were either analyzed forSFE (n = 10) or cemented for shear bond strength (SBS) testing and failure mode evaluation (n = 10). Results: Two-way analysis of variance (ANOVA) showed a significant effect of both surface treatment and storage time on SFE (P < 0.05), with KHF2-etched zirconia exhibiting the highest values across all time points. In both groups, SFE gradually decreased with increased storage. Surface treatment did not significantly affect SBS (P > 0.05). Storage time significantly influenced SBS (P < 0.05), specifically for KH F2-etched zirconia; post-hoc comparisons showed higher SBS after 1 week than at immediate testing (P <0.05). Although adhesive failures to cement increased with longer storage time for KHF2-etched specimens, this trend was not significant (P > 0.05). For APA specimens, the highest incidence of adhesive failures (n = 9) to cement occurred after 24 h of storage. Conclusion: Given the significant decrease in SFE with prolonged storage and adhesive failures to zirconia tended to increase overtime, minimizing the interval between surface treatment and cementation is recommended.