Bonding Effectiveness of Veneering Ceramic to Zirconia after Different Grit-Blasting Treatments

IF 4.7 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-15 DOI:10.3390/dj12070219

F. Zicari, Carlo Monaco, Marcio Vivan Cardoso, Davide Silvestri, B. Van Meerbeek

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Abstract

Objective: To determine the effect of grit-blasting before and after sintering on the surface roughness of zirconia and the micro-tensile bond strength of a pressable veneering ceramic to zirconia. Methods: Pre-sintered zirconia blocks (IPS e.max ZirCAD, Ivoclar) were divided into four test groups of three specimens each and a control group (‘CTR’; no surface treatment). Pre-S-30, Pre-S-50, and Pre-S-110 were grit-blasted with 30-µm SiO2-coated Al2O3, 50-µm Al2O3 and 110-µm Al2O3 particles, respectively, before sintering. Post-S-30 was grit-blasted with 30-µm SiO2-coated Al2O3 after sintering. For each treatment, the surface roughness was measured (Ra, Perthometer M4P, Mahr Perthen). After sintering the zirconia blocks, a liner was applied and a pressable ceramic (IPS e.max ZirPress, Ivoclar) was heat-pressed. Sixteen microbars were obtained from each block and submitted to micro-tensile bond-strength (µTBS) testing. Data were analyzed with one-way ANOVA. Any correlation between Ra and µTBS was evaluated (Sperman test). Results: Grit-blasting before sintering with 110-µm Al2O3 (RaPre-S-110 = 3.4 ± 0.4 µm), 50-µm Al2O3 (RaPre-S-50 = 2.3 ± 0.5 µm), and 30-µm SiO2-coated Al2O3 (RaPre-S-30 = 1.2 ± 0.2 µm) resulted in significantly higher roughness than grit-blasting after sintering with 30-µm SiO2-coated Al2O3 (RaPost-S-30 = 0.5 ± 0.1 µm). The highest µTBS was measured when the sintered zirconia was grit-blasted with 30-μm SiO2-coated Al2O3 (µTBSPost-S-30 = 28.5 ± 12.6 MPa), which was significantly different from that of specimens that were grit-blasted before sintering (µTBSPre-S-30 = 21.8 ± 10.4; µTBSPre-S-50 = 24.1 ± 12.6; µTBSPre-S-110 = 26.4 ± 14.1) or were not grit-blasted (µTBSCTR = 20.2 ± 11.2). Conclusions: Grit-blasting zirconia before sintering enhanced the surface roughness proportionally to the particle size of the sand used. Grit-blasting with 30-µm SiO2-coated Al2O3 after sintering improved bonding of the veneering ceramic to zirconia. Clinical Significance: As grit-blasting with 30-µm SiO2-coated Al2O3 after sintering improved bonding of the veneering ceramic to zirconia, it may reduce veneering ceramic fractures/chipping.

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不同喷砂处理后陶瓷贴面与氧化锆的粘接效果

目的确定烧结前后喷砂对氧化锆表面粗糙度以及可压贴面陶瓷与氧化锆微拉伸粘结强度的影响。方法：将预烧结氧化锆块（IPS e.max ZirCAD，Ivoclar）分为四个试验组（每组三个试样）和一个对照组（"CTR"；未进行表面处理）。Pre-S-30、Pre-S-50 和 Pre-S-110 在烧结前分别用 30 微米的二氧化硅涂层 Al2O3、50 微米的 Al2O3 和 110 微米的 Al2O3 颗粒进行喷砂处理。烧结后，用 30 微米的 SiO2 涂层 Al2O3 对后 S-30 进行喷砂处理。对每种处理方法都测量了表面粗糙度（Ra，Perthometer M4P，Mahr Perthen）。烧结氧化锆块后，使用衬垫和可压陶瓷（IPS e.max ZirPress，Ivoclar）进行热压。从每个块体中获得 16 个微棒，并进行微拉伸粘结强度（µTBS）测试。数据采用单因素方差分析。对 Ra 和 µTBS 之间的相关性进行了评估（Sperman 检验）。结果烧结前用 110 微米 Al2O3（RaPre-S-110 = 3.4 ± 0.4 微米）、50 微米 Al2O3（RaPre-S-50 = 2.3 ± 0.5 微米）和 30 微米 SiO2 涂层 Al2O3（RaPre-S-30 = 1.2 ± 0.2 µm）烧结后的粗糙度明显高于使用 30 微米 SiO2 涂层 Al2O3 烧结后的喷砂粗糙度（RaPost-S-30 = 0.5 ± 0.1 µm）。用 30 微米的 SiO2 涂层 Al2O3 喷砂烧结氧化锆时测得的 µTBS 最高（µTBSPost-S-30 = 28.5 ± 12.6 MPa），与烧结前喷砂的试样（µTBSPre-S-30 = 21.8 ± 10.4；µTBSPre-S-50 = 24.1 ± 12.6；µTBSPre-S-110 = 26.4 ± 14.1）或未喷砂的试样（µTBSCTR = 20.2 ± 11.2）相比有显著差异。结论烧结前喷砂可提高氧化锆的表面粗糙度，与所用砂子的粒度成正比。烧结后使用 30 微米的二氧化硅涂层 Al2O3 进行喷砂可提高贴面陶瓷与氧化锆的粘结性。临床意义：由于在烧结后使用 30 微米的二氧化硅涂层 Al2O3 进行喷砂可提高贴面陶瓷与氧化锆的粘结力，因此可减少贴面陶瓷的断裂/崩裂。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464

期刊介绍： ACS Applied Bio Materials is an interdisciplinary journal publishing original research covering all aspects of biomaterials and biointerfaces including and beyond the traditional biosensing, biomedical and therapeutic applications. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrates knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important bio applications. The journal is specifically interested in work that addresses the relationship between structure and function and assesses the stability and degradation of materials under relevant environmental and biological conditions.