Surface Characterization and Optical Properties of Reinforced Dental Glass-Ceramics Related to Artificial Aging.

Liliana Porojan,Sorin-Daniel Porojan,Mihaela-Ionela Bîrdeanu,Roxana-Diana Vasiliu

doi:10.3390/molecules25153407

Abstract

The development of various dental glass-ceramic materials and the evolution of novel processing technologies lead to an essential change in the clinical and technical workflow. The long-term success of a dental restoration treatment is defined by its durability, which is directly influenced by the oral environment. This study’s purpose was to evaluate the artificial aging behavior of nanostructured, respective microstructured ceramics related to surface topography, roughness, and optical properties. Six monolithic restoration materials were selected: milled lithium disilicate glass-ceramic (LDS-M) MT (medium translucency), hot-pressed lithium disilicate glass-ceramic (LDS-P) MT and HT (high translucency), milled zirconia-reinforced lithium silicate ceramic (ZLS-M) MT and hot-pressed zirconia-reinforced lithium silicate ceramic (ZLS-P) MT and HT, resulting n = 96 surfaces. All the samples were artificially aged by thermal cycling, and all investigations were made before and after thermal cycling. In terms of optical properties, differences recorded between ZLS and LDS ceramics are not significant. Thermal cycling increases the translucency of ZLS and LDS glass-ceramic materials significantly, with the most harmful effect on the pressed and polished samples. Micro- and nano roughness are significantly influenced by in vitro aging and a negative correlation was recorded. Glazed samples are characterized by significant rougher surfaces for all types of materials. On nanolevel, ZLS materials are significantly smoothed by thermal cycling.

Highlights

Various glass-ceramic materials have been promoted and introduced in dentistry, associated with the evolution of novel processing technologies
This study aimed to evaluate the artificial aging behavior of nanostructured, respective different microstructure draw the attention from this point of view because a material that is the most microstructured ceramics related to surface topography, roughness, and optical to The evaluate strength is not necessary to respond better to aging and have a higher survivalproperties, rate [29,30,31]
Surface roughness measurement results of Ra and Rz are described in Figures 1 and 2

Summary

Introduction

Various glass-ceramic materials have been promoted and introduced in dentistry, associated with the evolution of novel processing technologies. These lead to an essential change in the clinical and technical workflow, along with the changes in treating patients. The term glass-ceramics is defined by one glassy amorphous phase into which crystals are precipitated in a controlled manner by nucleation and crystal growth. The controlled precipitation of the crystalline phases (by temperature and time) permits us to overcome some of the glass deficiencies [2,3]. Controlled crystallization of glasses is known to positively impact dental ceramic materials mechanical properties [2,4]

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Conclusion