计算机辅助制造的氧化锆和合金牙冠的断裂性能。

Fracture performance of computer-aided manufactured zirconia and alloy crowns.

作者信息

Rosentritt Martin, Behr Michael, Thaller Christian, Rudolph Heike, Feilzer Albert

机构信息

Department of Prosthetic Dentistry, University Medical Center Regensburg, Regensburg, Germany.

出版信息

Quintessence Int. 2009 Sep;40(8):655-62.

PMID:19639090

Abstract

OBJECTIVE

To compare the fracture resistance and fracture performance of CAD/CAM zirconia and alloy crowns.

METHOD AND MATERIALS

One electrophoretic deposition alumina ceramic (Wolceram, Wolceram) and 4 zirconia-based systems (ce.novation, ce.novation; Cercon, DeguDent; Digizon, Amann Girrbach; and Lava, 3M ESPE) were investigated. A porcelain-fused-to-metal method (Academy, Bego Medical) was used in either conventional casting technique or laser sintering. Sixteen crowns of each material were fabricated and veneered with glass-ceramic as recommended by the manufacturers. Crown and root dimensions were measured, and 8 crowns of each system were adhesively bonded or conventionally cemented. After the crowns were artificially aged in a simulated oral environment (1,200,000 mechanical loads with 50 N; 3,000 thermal cycles with distilled water between 5 degrees C and 55 degrees C; 2 minutes per cycle), fracture resistance and fracture patterns were determined and defect sizes investigated.

RESULTS

The fracture force varied between 1,111 N and 2,038 N for conventional cementation and between 1,181 N and 2,295 N for adhesive bonding. No significant differences were found between adhesive and conventional cementations. Fracture patterns presented mostly as a chipping of the veneering, in single cases as a fracture of the core, and in 1 case as a fracture of the tooth.

CONCLUSIONS

Crown material and cementation do not have any significant influence on the fracture force and fracture performance of all-ceramic and metal-based crowns. Therefore, it may be concluded that adhesive bonding is not necessary for the application of high-strength ceramics.

摘要

目的

比较计算机辅助设计/计算机辅助制造（CAD/CAM）氧化锆冠和合金冠的抗折性及折裂性能。

方法和材料

研究了一种电泳沉积氧化铝陶瓷（Wolceram，Wolceram公司）和4种氧化锆基系统（ce.novation，ce.novation公司；Cercon，DeguDent公司；Digizon，Amann Girrbach公司；以及Lava，3M ESPE公司）。采用烤瓷熔附金属法（Academy，Bego Medical公司），通过传统铸造技术或激光烧结来制作。每种材料制作16个冠，并按照制造商的建议用玻璃陶瓷进行饰面处理。测量冠和牙根的尺寸，每种系统的8个冠采用粘结或传统粘固的方式固定。在模拟口腔环境中对冠进行人工老化处理（1200000次50N的机械加载；3000次5℃至55℃蒸馏水的热循环，每个循环2分钟）后，测定抗折性和折裂模式，并研究缺陷尺寸。

结果

传统粘固时的折裂力在1111N至2038N之间，粘结时的折裂力在1181N至2295N之间。粘结和传统粘固之间未发现显著差异。折裂模式大多表现为饰面崩瓷，个别情况为内冠折断，1例为牙齿折断。

结论

冠材料和粘固方式对全瓷冠和金属基冠的折裂力及折裂性能没有显著影响。因此，可以得出结论，对于高强度陶瓷的应用，粘结并非必要。

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计算机辅助制造的氧化锆和合金牙冠的断裂性能。

Fracture performance of computer-aided manufactured zirconia and alloy crowns.

作者信息

机构信息

出版信息

OBJECTIVE

METHOD AND MATERIALS

RESULTS

CONCLUSIONS

目的

方法和材料

结果

结论

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