Bond strength enhancement for additively manufactured zirconia: Micro-retentive design approach.

IF 3.4 2区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

Journal of Prosthodontics-Implant Esthetic and Reconstructive Dentistry Pub Date : 2025-08-22 DOI:10.1111/jopr.70018

Rama B Al-Rashdan, Charles Beard, Fei Liu, Berna Saglik, Bashar A Al-Rashdan, Khaled Q Al Hamad

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引用次数: 0

Abstract

Purpose: To investigate the effect of digitally designed micro-retention features on the bond strength of additively manufactured (AM) zirconia copings.

Materials and methods: Sixty titanium base abutments (NobelParallel, NobelBiocare), pretreated with 50 µm alumina particles were divided into four groups (n = 15 per group); one group with subtractively manufactured zirconia copings (SM), and three test groups comprising one group with AM zirconia copings without any intaglio surface modification (AM-N), and two groups with digitally designed inverted pyramid-shaped micro-textures incorporated to the intaglio surface of the AM zirconia copings with two sizes: Ra 120 µm (AM-120) and Ra 240 µm (AM-240). All copings were bonded to the abutments using a conventional resin cement (Multilink Hybrid). Pull-off tensile strength was measured with a universal testing machine (Instron), and statistical analysis was performed using analysis of variance and post-hoc test.

Results: Mean tensile strength values were 574.5 N for the SM group and 450.7 N, 990.8 N, 1097 N, for AM-N, AM-120, and AM-240, respectively. No statistically significant difference was found between the SM and AM-N groups (p > 0.05) or between the AM-120 and AM-240 groups (p > 0.05). However, the AM-120 and AM-240 groups demonstrated significantly higher tensile strength compared to the SM and AM-N groups (p < 0.001).

Conclusion: Provision of inverted micro-textured pyramidal shapes provided a simulation of etched surfaces to the intaglio surface of AM zirconia copings and significantly enhanced their retention strength to Ti-base abutments compared to subtractive and non-textured AM zirconia.

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增材制造氧化锆的粘结强度增强：微保留设计方法。

目的：研究数字设计的微保留特征对增材制造（AM）氧化锆覆层粘结强度的影响。材料与方法：60个钛基基牙（NobelParallel, NobelBiocare），用50µm氧化铝颗粒预处理，分为4组（每组15个）；一组采用减法制造的氧化锆覆层（SM），三个测试组，其中一组采用不进行凹版表面修饰的AM氧化锆覆层（AM- n），两组采用数字设计的倒金字塔形微纹理结合到凹版表面的AM氧化锆覆层，两种尺寸：Ra 120µm （AM-120）和Ra 240µm （AM-240）。使用常规树脂水泥（multi - link Hybrid）将所有覆盖层粘合到基台上。拉脱抗拉强度采用万能试验机（Instron）测量，方差分析和事后检验进行统计分析。结果：SM组的平均抗拉强度为574.5 N， AM-N、AM-120、AM-240组的平均抗拉强度分别为450.7 N、990.8 N、1097 N。SM组与AM-N组之间、AM-120组与AM-240组之间差异无统计学意义（p > 0.05）。然而，AM-120和AM-240组的抗拉强度明显高于SM和AM- n组(p结论：提供倒置的微纹理金字塔形状，可以模拟AM氧化锆涂层凹版表面的蚀刻表面，与减法和非纹理的AM氧化锆相比，可以显著提高其对钛基基基台的保持强度。

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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来源期刊

Journal of Prosthodontics-Implant Esthetic and Reconstructive Dentistry DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

7.90

自引率

15.00%

发文量

171

审稿时长

6-12 weeks

期刊介绍： The Journal of Prosthodontics promotes the advanced study and practice of prosthodontics, implant, esthetic, and reconstructive dentistry. It is the official journal of the American College of Prosthodontists, the American Dental Association-recognized voice of the Specialty of Prosthodontics. The journal publishes evidence-based original scientific articles presenting information that is relevant and useful to prosthodontists. Additionally, it publishes reports of innovative techniques, new instructional methodologies, and instructive clinical reports with an interdisciplinary flair. The journal is particularly focused on promoting the study and use of cutting-edge technology and positioning prosthodontists as the early-adopters of new technology in the dental community.