Fracture resistance of monolithic and veneered all-ceramic four-unit posterior fixed dental prostheses after artificial aging

Abstract: This study compared the fracture resistance of monolithic and veneered all-ceramic four-unit posterior fixed dental prostheses (FDPs) generated by computer-aided design/computer-aided manufacturing (CAD/CAM) after aging in a mastication simulator. Four-unit FDPs were designed from six different all-ceramic systems: 1) monolithic lithium disilicate (M-E), 2) monolithic zirconia (M-TZI), 3) veneered zirconia by conventional layering (V-L), 4) veneered zirconia by lithium disilicate pressing (V-P), 5) veneered zi… Show more

“…The use of chewing simulators with additional artificial aging through thermocycling is a well-proven method to simulate the various clinical conditions in vitro, owing to their standardization and reproducibility [20,23] . The number of thermodynamic loading (TDL) cycles, representing 3 months of service, was chosen as an average for testing the longevity of service of ceramic crowns [13] .…”

“…Load was applied on the center of the occlusal surface of all crowns using a steel antagonist ball (2.5mm diameter) under standardized test parameters. This is nearly equivalent to 3 months of in vivo service time [13] . This was carried out in deionized water with simultaneous thermocycling for 300 cycles (5 °C to 55 °C every 60 s, with a dwell time of 12 s) [13] .…”

“…This is nearly equivalent to 3 months of in vivo service time [13] . This was carried out in deionized water with simultaneous thermocycling for 300 cycles (5 °C to 55 °C every 60 s, with a dwell time of 12 s) [13] . Retention Measurements: Retention of the crowns to their resin dies was tested via the pull-off test utilizing a Universal Testing Machine 11 (UTM) (Fig.…”

“…Failure mode observation: After dislodgement, the debonded surfaces of the resin dies and their crown intaglios were inspected using a USB digitalmicroscope 13 . The images were captured and then transferred to IBM personal computer equipped with the Image-tool software 14 to determine the failure mode, according to the location of the remaining cement on the debonded surfaces.…”

Retention Strength of Polyetheretherketone Crowns Vs. Zirconia Crowns Restoring Molar Teeth: An in Vitro Study

“…The use of chewing simulators with additional artificial aging through thermocycling is a well-proven method to simulate the various clinical conditions in vitro, owing to their standardization and reproducibility [20,23] . The number of thermodynamic loading (TDL) cycles, representing 3 months of service, was chosen as an average for testing the longevity of service of ceramic crowns [13] .…”

“…Load was applied on the center of the occlusal surface of all crowns using a steel antagonist ball (2.5mm diameter) under standardized test parameters. This is nearly equivalent to 3 months of in vivo service time [13] . This was carried out in deionized water with simultaneous thermocycling for 300 cycles (5 °C to 55 °C every 60 s, with a dwell time of 12 s) [13] .…”

“…This is nearly equivalent to 3 months of in vivo service time [13] . This was carried out in deionized water with simultaneous thermocycling for 300 cycles (5 °C to 55 °C every 60 s, with a dwell time of 12 s) [13] . Retention Measurements: Retention of the crowns to their resin dies was tested via the pull-off test utilizing a Universal Testing Machine 11 (UTM) (Fig.…”

“…Failure mode observation: After dislodgement, the debonded surfaces of the resin dies and their crown intaglios were inspected using a USB digitalmicroscope 13 . The images were captured and then transferred to IBM personal computer equipped with the Image-tool software 14 to determine the failure mode, according to the location of the remaining cement on the debonded surfaces.…”

Retention Strength of Polyetheretherketone Crowns Vs. Zirconia Crowns Restoring Molar Teeth: An in Vitro Study

“…This is in vitro method was used in several studies to simulates the oral environment. (31) This study followed the manufacturer's recommendations regarding sample thickness, different surface finishing protocols, and firing steps. The selected thickness of all specimens was 1.5 mm which is the minimum thickness of crown restoration using celtra materials.…”

Effect of surface finishing protocols on color and translucency of zirconia reinforced lithium silicate glass-ceramic after thermo-mechanical aging and different staining solutions

Effect of printing orientation on the fracture strength of additively manufactured 3-unit interim fixed dental prostheses after aging