Degradation of dental ZrO2-based materials after hydrothermal fatigue. part I: XRD, XRF, and FESEM analyses

Jorge PerdigãO; Ana M. Pinto; Regina C.C. Monteiro; Francisco M. Braz Fernandes; Pedro Laranjeira; João P. Veiga

doi:10.4012/dmj.2011-216

Degradation of dental ZrO₂-based materials after hydrothermal fatigue. part I: XRD, XRF, and FESEM analyses

Jorge PerdigãO, Ana M. Pinto, Regina C.C. Monteiro, Francisco M. Braz Fernandes, Pedro Laranjeira, João P. Veiga

Operative Dentistry

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

The aim was to investigate the effect of simulated low-temperature degradation (s-LTD) and hydrothermal fatigue on the degradation of three ZrO2-based dental materials. Lava, IPS, and NanoZr discs were randomly assigned to (1) Control-Storage in distilled water at 37°C; (2) Aging at 134°C for 5 h (s-LTD); (3) Thermocycling in saliva for 30,000 cycles (TF). XRD revealed that ZrO₂ m phase was identified in all groups but TF increased the m phase only for Lava. Under the FESEM, Lava showed no alterations under s-LTD, but displayed corrosion areas up to 60 μm wide after TF. We conclude that TF accelerated the degradation of Lava through an increase in the m phase and grain pull-out from the material surface.

Original language	English (US)
Pages (from-to)	256-265
Number of pages	10
Journal	Dental Materials Journal
Volume	31
Issue number	2
DOIs	https://doi.org/10.4012/dmj.2011-216
State	Published - 2012

Keywords

Electron microscopy
Low-temperature degradation (LTD)
Thermal fatigue
Zirconia

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title = "Degradation of dental ZrO2-based materials after hydrothermal fatigue. part I: XRD, XRF, and FESEM analyses",

abstract = "The aim was to investigate the effect of simulated low-temperature degradation (s-LTD) and hydrothermal fatigue on the degradation of three ZrO2-based dental materials. Lava, IPS, and NanoZr discs were randomly assigned to (1) Control-Storage in distilled water at 37°C; (2) Aging at 134°C for 5 h (s-LTD); (3) Thermocycling in saliva for 30,000 cycles (TF). XRD revealed that ZrO2 m phase was identified in all groups but TF increased the m phase only for Lava. Under the FESEM, Lava showed no alterations under s-LTD, but displayed corrosion areas up to 60 μm wide after TF. We conclude that TF accelerated the degradation of Lava through an increase in the m phase and grain pull-out from the material surface.",

keywords = "Electron microscopy, Low-temperature degradation (LTD), Thermal fatigue, Zirconia",

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AU - PerdigãO, Jorge

AU - Pinto, Ana M.

AU - Monteiro, Regina C.C.

AU - Braz Fernandes, Francisco M.

AU - Laranjeira, Pedro

AU - Veiga, João P.

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AB - The aim was to investigate the effect of simulated low-temperature degradation (s-LTD) and hydrothermal fatigue on the degradation of three ZrO2-based dental materials. Lava, IPS, and NanoZr discs were randomly assigned to (1) Control-Storage in distilled water at 37°C; (2) Aging at 134°C for 5 h (s-LTD); (3) Thermocycling in saliva for 30,000 cycles (TF). XRD revealed that ZrO2 m phase was identified in all groups but TF increased the m phase only for Lava. Under the FESEM, Lava showed no alterations under s-LTD, but displayed corrosion areas up to 60 μm wide after TF. We conclude that TF accelerated the degradation of Lava through an increase in the m phase and grain pull-out from the material surface.

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KW - Low-temperature degradation (LTD)

KW - Thermal fatigue

KW - Zirconia

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