Effect of Grinding and Regenerative Heat Treatment on the Fracture Resistance of a Zirconia/Porcelain Veneer Interface.

The journal of adhesive dentistry Pub Date : 2022-03-01 DOI:10.3290/j.jad.b2701695

Lucas Miguel Candido, Eduardo Bellini Ferreira, Lígia Antunes Pereira Pinelli

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Abstract

Purpose: To experimentally assess the effect of regenerative heat treatment (HT) on yttria-stabilized tetragonal zirconia polycrystalline ceramic (Y-TZP) to guarantee veneer adhesion strength.

Materials and methods: One surface of bar-shaped Y-TZP specimens was ground (G) with a diamond stone, while the control samples (C) were not. Groups C900 and G900 were submitted to HT at 900°C for 60 min, whereas groups C1000 and G1000 were submitted to HT at 1000°C for 30 min. The treated surfaces were characterized by x-ray diffractometry (XRD), scanning electron microscopy (SEM), and optical and mechanical profilometry. The energy release rate through interface fracture was determined by a four-point bending test on notched Y-TZP veneered specimens. XRD was refined by the Rietveld method, mean roughness (Ra) and energy release rate were submitted to two-way ANOVA (a = 0.05), and the images were analyzed descriptively.

Results: The monoclinic phase (vol%), means of Ra (µm), and the energy release rate (J/m2) were, respectively: C = 1.2/0.17/6.8, C900 = 0.0/0.18/6.6, C1000 = 0.0/0.18/7.6, G = 2.6/1.16/8.3, G900 = 0.0/1.07/8.0, and G1000 = 0.0/1.01/5.7. The surface fraction of monoclinic zirconia increased by grinding and decreased by HT. Ra also increased after grinding (p < 0.005) but remained unaltered after HT (p = 0.22). Increased irregularity was observed in the G groups and a subtle smoothing of the surface after HT. After the fracture of the bilayers, a residual amount of porcelain could be seen on the zirconia surface in all groups. The energy release rate was statistically equal among all groups (p > 0.05).

Conclusion: Heat treatment after grinding completely restored the tetragonal phase of zirconia without altering the energy release rate during interfacial fracture.

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研磨和再生热处理对氧化锆/瓷贴面界面抗断裂性的影响

目的：通过实验评估再生热处理（HT）对钇稳定四方氧化锆多晶陶瓷（Y-TZP）的影响，以保证贴面粘接强度：条形 Y-TZP 试样的一个表面用金刚石打磨（G），而对照组试样（C）则未打磨。C900 组和 G900 组在 900°C 下高温处理 60 分钟，而 C1000 组和 G1000 组在 1000°C 下高温处理 30 分钟。通过 X 射线衍射仪 (XRD)、扫描电子显微镜 (SEM) 以及光学和机械轮廓仪对处理过的表面进行了表征。通过对切口 Y-TZP 单板试样进行四点弯曲测试，确定了界面断裂的能量释放率。采用里特维尔德法对 XRD 进行了细化，对平均粗糙度（Ra）和能量释放率进行了双向方差分析（a = 0.05），并对图像进行了描述性分析：单斜相（体积百分比）、Ra 平均值（微米）和能量释放率（焦耳/平方米）分别为C=1.2/0.17/6.8，C900=0.0/0.18/6.6，C1000=0.0/0.18/7.6，G=2.6/1.16/8.3，G900=0.0/1.07/8.0，G1000=0.0/1.01/5.7。单斜氧化锆的表面分数因研磨而增加，因高温而减少。Ra 在磨削后也有所增加（p < 0.005），但在热处理后保持不变（p = 0.22）。在 G 组中观察到不规则性增加，而在 HT 组中观察到表面细微的平滑。双层膜断裂后，所有组的氧化锆表面都能看到残余的瓷量。各组的能量释放率在统计学上相同（P > 0.05）：结论：磨削后的热处理可完全恢复氧化锆的四方相，且不会改变界面断裂时的能量释放率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The journal of adhesive dentistry

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