Due to the brittleness and limited tensile strength of the veneering glass-ceramic materials, the methods that combine strong core material (as zirconia or alumina) are still under debate. The present study aims to evaluate the fracture strength and the mechanism of failure through fractographic analysis of single all-ceramic crowns supported by implants. Forty premolar cores were fabricated with CAD/CAM technology using alumina (n = 20) and zirconia (n = 20). The specimens were veneered with glass-ceramic, cemented on titanium abutments, and subjected to loading test until fracture. SEM fractographic analysis was also performed. The fracture load was 1165 (±509) N for alumina and 1638 (±662) N for zirconia with a statistically significant difference between the two groups (P = 0.026). Fractographic analysis of alumina-glass-ceramic crowns, showed the presence of catastrophic cracks through the entire thickness of the alumina core; for the zirconia-glass-ceramic crowns, the cracks involved mainly the thickness of the ceramic veneering layer. The sandblast procedure of the zirconia core influenced crack path deflection. Few samples (n = 3) showed limited microcracks of the zirconia core. Zirconia showed a significantly higher fracture strength value in implant-supported restorations, indicating the role played by the high resistant cores for premolar crowns

Fracture strength of zirconia and alumina ceramic crowns supported by implants / Traini, T; Sorrentino, R; Gherlone, E; Perfetti, F; Bollero, P; Zarone, Fernando. - In: JOURNAL OF ORAL IMPLANTOLOGY. - ISSN 0160-6972. - 41:S1(2015), pp. 352-359. [10.1563/AAID-JOI-D-13-00142]

Fracture strength of zirconia and alumina ceramic crowns supported by implants.

ZARONE, FERNANDO
2015

Abstract

Due to the brittleness and limited tensile strength of the veneering glass-ceramic materials, the methods that combine strong core material (as zirconia or alumina) are still under debate. The present study aims to evaluate the fracture strength and the mechanism of failure through fractographic analysis of single all-ceramic crowns supported by implants. Forty premolar cores were fabricated with CAD/CAM technology using alumina (n = 20) and zirconia (n = 20). The specimens were veneered with glass-ceramic, cemented on titanium abutments, and subjected to loading test until fracture. SEM fractographic analysis was also performed. The fracture load was 1165 (±509) N for alumina and 1638 (±662) N for zirconia with a statistically significant difference between the two groups (P = 0.026). Fractographic analysis of alumina-glass-ceramic crowns, showed the presence of catastrophic cracks through the entire thickness of the alumina core; for the zirconia-glass-ceramic crowns, the cracks involved mainly the thickness of the ceramic veneering layer. The sandblast procedure of the zirconia core influenced crack path deflection. Few samples (n = 3) showed limited microcracks of the zirconia core. Zirconia showed a significantly higher fracture strength value in implant-supported restorations, indicating the role played by the high resistant cores for premolar crowns
2015
Fracture strength of zirconia and alumina ceramic crowns supported by implants / Traini, T; Sorrentino, R; Gherlone, E; Perfetti, F; Bollero, P; Zarone, Fernando. - In: JOURNAL OF ORAL IMPLANTOLOGY. - ISSN 0160-6972. - 41:S1(2015), pp. 352-359. [10.1563/AAID-JOI-D-13-00142]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/597578
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