不同表面处理对树脂水泥与加工纯钛结合强度的影响。

Yang Cao, Yanqing Guo, Lei Chen, Jing-Jing Han, H. Tong, Baohui Zhang, Yu Zhang
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引用次数: 8

摘要

目的研究喷砂、酸性或碱性/热处理以及金属底漆对树脂水泥与工业纯钛(CP-Ti)剪切结合强度(SBS)的影响。材料与方法对钛板进行机械加工,采用喷砂(GB)或喷砂后进行酸性处理(GB/AC)或碱性/热处理(GB/AH)。随机分为4组,分别用Rely X陶瓷引物(RCP)、Z Prime Plus (ZPP)和Alloy引物(ALP)处理,或不加引物作为对照。用Rely X Unicem水泥将钛板对粘合在一起。在5°C至55°C之间进行5000次热循环前后测量SBS。结果sem观察表明,经GB/AC处理的CP-Ti表面形成蜂窝状气孔,而经GB/AH处理的CP-Ti表面形成均匀的网状气孔。表面粗糙度由大到小依次为GB、GB/AC、GB/AH。在所有处理中,GB/AH组SBS最高。引物中,ALP组SBS最高,RCP组最低。SBS最高的是GB,其次是ALP。结论GB/AH处理后的CP-Ti表面形成了精细均匀的网状结构,为树脂键合提供了有效的微机械联锁机制。同时,经过AH处理后,加工后的CP-Ti表面形成的-OH与树脂胶粘剂中的酸性单体发生化学反应,形成化学键。结果表明,相对于GB/AC处理,GB/AH处理显著提高了粘结强度。此外,ALP处理促进了氢键的形成,进一步提高了化学键的强度。最后,上述效应的结合导致了加工CP-Ti与树脂粘合剂之间最坚固的结合。
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Effects of Different Surface Treatments on Bond Strength of Resin Cement to Machined Pure Titanium.
PURPOSE To investigate the effects of grit blasting, acidic or alkaline/heat treatments, and metal primer application on the shear bond strength (SBS) of resin cement to machined commercially pure titanium (CP-Ti). MATERIALS AND METHODS Titanium plates were machined and received one of the following treatments: grit-blasting (GB), or grit-blasting followed by either acidic treatment (GB/AC) or alkaline/heat treatment (GB/AH). The specimens were randomly divided into 4 groups and treated with Rely X Ceramic Primer (RCP), Z Prime Plus (ZPP), and Alloy Primer (ALP), or without primer as the control. The pairs of titanium plates were cemented together with the Rely X Unicem cement. SBS was measured before and after thermocycling between 5°C and 55°C for 5000 cycles. RESULTS SEM observation showed that honeycomb-shaped pores formed on the surface of machined CP-Ti after GB/AC treatment, whereas a uniform net-like pattern formed after GB/AH treatment. In descending order, the surface roughness was GB, GB/AC, and GB/AH. The GB/AH group showed the highest SBS among all the treatments. As for primers, ALP group showed the highest SBS, while the RCP group showed the lowest. GB followed by ALP presented the highest SBS. CONCLUSION A fine, uniform network structure was formed on the surface of CP-Ti following GB/AH treatment, providing an effective micromechanical interlocking mechanism for resin bonding. At the same time, after AH treatment, the -OH formed on the surface of the machined CP-Ti triggered a chemical reaction with the acid monomers in the resin adhesives, creating a chemical bond. As a result, GB/AH treatment significantly improved the bond strength relative to GB/AC treatment. In addition, ALP treatment facilitated the formation of hydrogen bonds, which further improved the chemical bond strength. Finally, the combination of the effects mentioned above resulted in the most robust bond between machined CP-Ti and the resin adhesives.
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