Effect of the combination of chemical-physical pretreatments for bonding PEEK to resin composites.

Stomatologija Pub Date : 2024-01-01

Gretty Alonso-Martínez, Marine Ortiz-Magdaleno, Norma Verónica Zabala-Alonso, Paula Sánchez-Robles, Mariana Gutiérrez-Sánchez, Juan Carlos Flores-Arriaga, Gabriel Fernando Romo-Ramírez

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Abstract

Objective: Surface pretreatment of polyetheretherketone (PEEK) is necessary to increase the bond strength between PEEK and veneering materials. The objective of this in vitro study was to evaluate the effect of a combination of chemical and physical pretreatments on the surface of PEEK for the adhesion of resin composite.

Materials and methods: Five pretreatments were evaluated: grit-blasting (Al2O3), grit-blasting (Al2O3)+primer adhesive, 98% sulfuric acid, 98% sulfuric acid+primer adhesive, and an untreated control. The PEEK surface was evaluated with a scanning electron microscope, and the tensile bond strength (TBS) of the PEEK with the veneering resin composite interface was measured with a universal test machine at a crosshead speed of 5 mm/min. The failure was categorized as adhesive, cohesive or mixed.

Results: Pretreatment with grit-blasting+primer adhesive obtained the highest mean ± standard deviation TBS value (19.10±1.70 MPa) followed by 98% sulfuric acid+primer adhesive (17.90±1.20 MPa), while the pretreatments with grit-blasting (13.97±2.33 MPa) and 98% sulfuric acid (12.18±0.70 MPa) showed the lowest values. All pretreatments showed statistically significant differences with respect to the untreated PEEK control and the combined pretreatments with respect to the pretreatment with grit-blasting and 98% sulfuric acid (p≤0.05). A higher number of adhesive failures were observed except in the grit-blasting+primer adhesive group, which had 80% mixed failures. No cohesive failures were seen.

Conclusion: The combination of chemical-physical pretreatments induced an increased in the TBS values between PEEK and resin composite because of the topographical roughness and the micro-mechanical anchoring in the PEEK surface.

本刊更多论文

化学-物理预处理组合对聚醚醚酮与树脂复合材料粘接的影响。

目的：为提高聚醚醚酮（PEEK）与贴面材料的结合强度，对其进行表面预处理是必要的。本体外研究的目的是评估化学和物理预处理组合在PEEK表面对树脂复合材料粘附性的影响。材料与方法：对喷砂（Al2O3）、喷砂(Al2O3)+底漆胶粘剂、98%硫酸、98%硫酸+底漆胶粘剂和未经处理的对照进行了5种预处理。采用扫描电镜对PEEK表面进行评价，并采用万能试验机在5 mm/min的十字速度下测量PEEK与贴面树脂复合界面的拉伸结合强度（TBS）。故障分为粘接、内聚和混合型。结果：喷砂+底漆胶粘剂预处理TBS值的平均值±标准差最高（19.10±1.70 MPa），其次为98%硫酸+底漆胶粘剂（17.90±1.20 MPa），喷砂（13.97±2.33 MPa）和98%硫酸（12.18±0.70 MPa）预处理TBS值最低。各预处理与未处理PEEK对照及联合预处理相比，喷砂加98%硫酸预处理差异均有统计学意义（p≤0.05）。除喷砂+底漆胶粘剂组有80%混合失效外，其余胶粘剂失效率较高。没有看到凝聚失败。结论：化学-物理联合处理导致PEEK与树脂复合材料之间的TBS值增加，这是由于PEEK表面的地形粗糙度和微机械锚定作用所致。

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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Stomatologija

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