Mechanical and Microstructural Properties of Monolithic Zirconia
Crown Fracture Resistance and Impact of Low-Temperature Degradation
Sammanfattning
Zirconia has been widely used in dentistry to improve the strength of ceramic restorations maintaining aesthetics. In addition, zirconia is increasingly being used for monolithic crowns without veneering porcelain. However, there is a lack of scientific information regarding whether or not monolithic zirconia crowns can function with sufficient durability, especially in the molar regions. The overall aim of this thesis was to analyze factors that would affect mechanical and microstructural properties of monolithic zirconia crowns.
Material testing was performed to evaluate the influence of sintering temperature, additional heat treatment, coloring procedure and autoclaving-induced low-temperature degradation (LTD) on the biaxial flexural strength of zirconia. Additional heat treatment did not reduce the strength, but the strength was found to decrease as the sintering temperature increased. The tooth-colored zirconia possessed equivalent strength to the non-colored zirconia. In addition, X-ray diffraction analysis and scanning electron microscopy showed that the tooth-colored zirconia had higher resistance to LTD.
Crown fracture testing showed that the fracture resistance of the monolithic zirconia crowns with an occlusal thickness of 0.5 mm was significantly higher than that of lithium disilicate crowns with an occlusal thickness of 1.5 mm. The types of cements did not significantly affect the fracture resistance of monolithic zirconia crowns. When subjected to autoclaving-induced LTD, the fracture resistance of the monolithic zirconia crowns significantly decreased. By contrast, cyclic loading with a load of 300 N for 240,000 cycles did not significantly affect the fracture resistance of the crowns.
The knowledge obtained by the laboratory studies performed suggests that monolithic zirconia crowns with a minimal thickness of 0.5 mm will have the capability of being applied to the molar region with sufficient durability, providing there is a properly controlled fabrication process to avoid unexpected degradation of the material.
Delarbeten
I. Nakamura, K., Adolfsson, E., Milleding, P., Kanno, T., Örtengren, U. (2012) Influence of grain size and veneer firing process on the flexural strength of zirconia ceramics. Eur J Oral Sci 120: 249-254. ::doi::10.1111/j.1600-0722.2012.00958.x II. Nakamura, K., Harada, A., Ono, M., Shibasaki, H., Kanno, T., Niwano, Y., Adolfsson, E., Milleding, P., Örtengren, U. (2015) Effect of low-temperature degradation on the mechanical and microstructural properties of tooth-colored 3Y-TZP ceramics. Submitted for publication. III. Nakamura, K., Harada, A., Inagaki, R., Kanno, T., Niwano, Y., Milleding, P., Örtengren, U. (2015) Fracture resistance of monolithic zirconia molar crowns with reduced thickness. Acta Odont Scand, E-pub ahead of print. ::doi::10.3109/00016357.2015.1007479 IV. Nakamura, K., Mouhat, M., Nergård J.M., Lægreid, S.J., Kanno, T., Milleding, P., Örtengren, U. (2015) Effect of cements on fracture resistance of monolithic zirconia crowns. Submitted for publication. V. Nakamura, K., Harada, A., Kanno, T., Inagaki, R., Niwano, Y., Milleding, P., Örtengren, U. (2015) The influence of low-temperature degradation and cyclic loading on the fracture resistance of monolithic zirconia molar crowns. Submitted for publication.
Examinationsnivå
Doctor of Philosophy (Odontology)
Universitet
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Odontology. Department of Prosthetic Dentistry/Dental Material Science
Disputation
onsdagen den 15 april 2015 kl. 9.00, Föreläsnings sal 3, Medicinaregatan 12 E
Datum för disputation
2015-04-15
E-post
keisuke@m.tohoku.ac.jp
Datum
2015-03-25Författare
Nakamura, Keisuke
Nyckelord
zirconia
flexural strength
microstructure
fracture resistance
monolithic crown
low-temperature degradation
phase transformation
Publikationstyp
Doctoral thesis
ISBN
978-91-628-9332-3
978-91-628-9333-0 (electronic)
Språk
eng