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  • Influence of preparation depths on the fracture load of customized zirconia abutments with titanium insert.

Influence of preparation depths on the fracture load of customized zirconia abutments with titanium insert.

The journal of advanced prosthodontics (2015-07-04)
Han-Sung Joo, Hong-So Yang, Sang-Won Park, Hyun-Seung Kim, Kwi-Dug Yun, Min-Kyung Ji, Hyun-Pil Lim
摘要

This study evaluated the fracture load of customized zirconia abutments with titanium insert according to preparation depths, with or without 5-year artificial aging. Thirty-six identical lithium disilicate crowns (IPS e.max press) were fabricated to replace a maxillary right central incisor and cemented to the customized zirconia abutment with titanium insert on a 4.5×10 mm titanium fixture. Abutments were fabricated with 3 preparation depths (0.5 mm, 0.7 mm, and 0.9 mm). Half of the samples were then processed using thermocycling (temperature: 5-55℃, dwelling time: 120s) and chewing simulation (1,200,000 cycles, 49 N load). All specimens were classified into 6 groups depending on the preparation depth and artificial aging (non-artificial aging groups: N5, N7, N9; artificial aging groups: A5, A7, A9). Static load was applied at 135 degrees to the implant axis in a universal testing machine. Statistical analyses of the results were performed using 1-way ANOVA, 2-way ANOVA, independent t-test and multiple linear regression. The fracture loads were 539.28 ± 63.11 N (N5), 406.56 ± 28.94 N (N7), 366.66 ± 30.19 N (N9), 392.61 ± 50.57 N (A5), 317.94 ± 30.05 N (A7), and 292.74 ± 37.15 N (A9). The fracture load of group N5 was significantly higher than those of group N7 and N9 (P<.017). Consequently, the fracture load of group A5 was also significantly higher than those of group A7 and A9 (P<.05). After artificial aging, the fracture load was significantly decreased in all groups with various preparation depths (P<.05). The fracture load of a single anterior implant restored with lithium disilicate crown on zirconia abutment with titanium insert differed depending on the preparation depths. After 5-year artificial aging, the fracture loads of all preparation groups decreased significantly.

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Sigma-Aldrich
氧化锆 (IV), powder, 5 μm, 99% trace metals basis
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氧化锆 (IV), nanopowder, <100 nm particle size (TEM)
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氧化锆(IV), nanoparticles, dispersion, <100 nm particle size (BET), 5 wt. % in H2O
Sigma-Aldrich
氧化锆 (IV), 99.99% trace metals basis (purity excludes ~2% HfO2)
Sigma-Aldrich
氧化锆(IV), nanoparticles, dispersion, <100 nm particle size (BET), 10 wt. % in H2O