加热氢氟酸表面处理对表面粗糙度和结合强度的影响to长石陶瓷和二硅酸锂Glass-Ceramics。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Diana Leyva Del Rio, Emmanuel Sandoval-Sanchez, Nadia E Campos-Villegas, Francisco X Azpiazu-Flores, Norma-Veronica Zavala-Alonso
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引用次数: 2

摘要

目的:评价加热氢氟酸和室温氢氟酸对长石ceramic和二硅酸锂glass-ceramics表面粗糙度参数Ra和Rq及微拉伸键合强度μTBS的影响。材料和方法:两种陶瓷制成的圆盘状样品根据表面处理分为两组:长石陶瓷抛光表面(FP),长石陶瓷+ 60秒9% HF酸蚀刻at室温(FC),长石陶瓷+ 60秒9% HF酸蚀刻加热到70℃(F70), lithium-disilicate抛光表面(LP),室温下二硅酸锂+ 20秒9% HF酸蚀刻(LC),二硅酸锂+ 20秒9% HF酸蚀刻加热到70℃(L70)。为了评估Ra和Rq,使用接触式触笔轮廓仪在每个样品表面上的非重叠读数taken。为了测量FC、F70、LC和L70组样品的微拉伸结合强度(μTBS),对其进行相应的表面处理,进行硅化处理,然后用双固化复合水泥与树脂复合盘结合。24h后,对样品进行切片,获得μTBS样品。使用扫描电子显微镜(SEM)对每组有代表性的样品进行检查,以分析蚀刻表面的形貌。使用Welch’s ANOVA和Games-Howell多重比较事后检验对数据进行统计显著性分析。结果:对于表面粗糙度参数和HF室温酸蚀(FC和LC),与抛光表面(FP和LP)相比,表面粗糙度显著增加(p < 0.001)。此外,与室温下的HF酸腐蚀样品相比,使用加热的HF酸腐蚀显著提高了陶瓷的表面粗糙度(p < 0.001)。L70组的μTBS最高(29.11±8.26 MPa),显著高于other组的that (p < 0.001)。FC组(19.94±4.14)、F70组(18.24±5.29)、LC组(17.87±6.96)之间差异无统计学意义(p > 0.05)。结论:与表面HF室温酸蚀相比,采用加热至70°C的9% HF酸蚀可显著提高表面粗糙度并改善粘结强度onto二硅酸锂玻璃陶瓷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Heated Hydrofluoric Acid Surface Treatment on Surface Roughness and Bond Strength to Feldspathic Ceramics and Lithium-Disilicate Glass-Ceramics.

Purpose: To evaluate the effect of heated and room-temperature hydrofluoric (HF) acid on surface roughness parameters (Ra and Rq) and microtensile bond strength (μTBS) on feldspathic ceramic and lithium-disilicate glass-ceramics.

Materials and methods: Disk-shaped samples made from both ceramics were divided into groups according to surface treatment: feldspathic ceramic polished surface (FP), feldspathic ceramic + 60 s of 9% HF acid etching at room temperature (FC), feldspathic ceramic + 60 s of 9% HF acid etching heated to 70°C (F70), lithium-disilicate polished surface only (LP), lithium disilicate + 20 s of 9% HF acid etching at room temperature (LC), and lithium disilicate + 20 s of 9% HF acid etching heated to 70°C (L70). To evaluate Ra and Rq, non-overlapping readings were taken on the surface of each sample with a contact stylus profilometer. To measure microtensile bond strength (μTBS), samples of groups FC, F70, LC and L70 received their corresponding surface treatment, were silanized and then bonded using a dual-cure composite cement to resin composite disks. After 24 h, samples were sectioned to obtain specimens for μTBS. Representative samples from each group were examined using scanning electron microscopy (SEM) to analyze the morphology of the etched surface. The data were analyzed for statistical significance using Welch's ANOVA with the Games-Howell multiple-comparison post-hoc test.

Results: For both surface roughness parameters and HF acid etching at room temperature (FC and LC) showed a significant increase (p < 0.001) in surface roughness when compared to polished surfaces (FP and LP). Furthermore, the use of heated HF acid etching significantly increased (p < 0.001) the surface roughness of the ceramic when compared to their counterpart sample of HF acid etching at room temperature. Group L70 obtained the highest μTBS of all groups (29.11 ± 8.26 MPa) and was significantly higher (p < 0.001) than that of the other experimental groups. There were no statistical differences (p > 0.05) between groups FC (19.94 ± 4.14), F70 (18.24 ± 5.29), and LC (17.87 ± 6.96).

Conclusion: The use of 9% HF acid etching heated to 70°C resulted in significantly higher surface roughness and improved bond strength onto lithium-disilicate glass-ceramic compared to surface HF acid etching at room temperature.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
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2.10%
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464
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