锂硅玻璃陶瓷和超高透光性氧化锆的承重能力。

Load-bearing capacity of lithium disilicate and ultra-translucent zirconias.

机构信息

Department of Biomateirals & Biomimetics, New York University College of Dentistry, New York, NY 10010, United States.

出版信息

J Mech Behav Biomed Mater. 2018 Dec;88:170-175. doi: 10.1016/j.jmbbm.2018.08.023. Epub 2018 Aug 21.

DOI:10.1016/j.jmbbm.2018.08.023

PMID:30173069

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6179910/

Abstract

OBJECTIVE

The aim of this study was to evaluate the load-bearing capacity of monolithic lithium disilicate (LiDi - IPS e.max CAD) and novel ultra-translucent zirconia restorative systems of various compositions: 5Y-PSZ (5 mol% yttria-partially-stabilized zirconia) and 4Y-PSZ (4 mol% yttria-partially-stabilized zirconia); relative to a 3Y-TZP (3 mol% yttria-stabilized zirconia) control.

MATERIALS AND METHODS

Experiments were carried out with 10 disc specimens (Ø12 ×1 mm) per ceramic material. The zirconia intaglio surface (as machined) was sandblasted (50 µm AlO at 2 bar), while LiDi was etched with 5% HF for 20 s. The ceramic discs were then adhesively bonded onto a dentin-like substrate (G10, a high-pressure fiberglass material) using Multilink Automix cement and Monobond Plus primer, producing a ceramic/cement/dentin-like substrate trilayer structure. The bonded specimens were stored in water for 3 days at 37 °C prior to a Hertzian indentation flexural radial fracture test. The plate-on-foundation theory was used to validate the load-bearing capacity of the trilayer systems based on the flexural tensile stress at the ceramic intaglio (cementation) surface-a cause for bulk fracture of ceramic onlays.

RESULTS

The experiment data showed that, when bonded to and supported by a dentin-like substrate, the load-bearing capacity of LiDi (872 N) is superior to the 5Y-PSZ (715 N) and can even reach that of 4Y-PSZ (864 N), while 3Y-TZP still holds the highest load-bearing capacity (1195 N). Theoretical analyses agree with experimental observations. The translucency of 5Y-PSZ approaches that of LiDi, which are superior to both 4Y-PSZ and 3Y-TZP.

CONCLUSIONS

When adhesively bonded to and supported by dentin, lithium disilicate exhibits similar load-bearing properties to 4Y-PSZ but much better than 5Y-PSZ.

摘要

目的

本研究旨在评估整体式硅酸锂（LiDi - IPS e.max CAD）和新型超高透光性氧化锆修复体系统的承载能力，这些系统具有不同的组成成分：5Y-PSZ（5 mol%氧化钇部分稳定氧化锆）和 4Y-PSZ（4 mol%氧化钇部分稳定氧化锆）；与 3Y-TZP（3 mol%氧化钇稳定氧化锆）对照。

材料和方法

每个陶瓷材料进行 10 个圆盘试件（Ø12×1mm）的实验。氧化锆凹面（机加工）用 50 µm AlO 喷砂处理（2 巴），而 LiDi 则用 5% HF 蚀刻 20 秒。然后，将陶瓷圆盘用 Multilink Automix 水泥和 Monobond Plus 底漆粘合到类似牙本质的基底（G10，一种高压玻璃纤维材料）上，形成陶瓷/水泥/类似牙本质基底三层结构。在 37°C 的水中储存 3 天后，对粘合的试件进行 Hertzian 压痕弯曲径向断裂试验。板基理论用于根据陶瓷凹面（粘结）表面的弯曲拉伸应力来验证三层系统的承载能力-这是陶瓷嵌体整体断裂的原因。

结果

实验数据表明，当粘合并支撑在类似牙本质的基底上时，LiDi（872 N）的承载能力优于 5Y-PSZ（715 N），甚至可以达到 4Y-PSZ（864 N）的水平，而 3Y-TZP 仍然具有最高的承载能力（1195 N）。理论分析与实验观察一致。5Y-PSZ 的透光率接近 LiDi，优于 4Y-PSZ 和 3Y-TZP。

结论

当粘合并支撑在牙本质上时，硅酸锂表现出与 4Y-PSZ 相似的承载性能，但优于 5Y-PSZ。

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