打印角度对增材制造透明硅橡胶印模表面粗糙度的影响:一项体外研究。
Influence of printing angulation on the surface roughness of additive manufactured clear silicone indices: An in vitro study.
机构信息
Assistant Professor and Assistant Program Director AEGD Residency, College of Dentistry, Texas A&M University, Dallas, Texas; Affiliate Faculty Graduate Prosthodontics, School of Dentistry, University of Washington, Seattle, Wash; Researcher at Revilla Research Center, Madrid, Spain.
Head of Additive Manufacturing at MedCAD, Dallas, Texas.
出版信息
J Prosthet Dent. 2021 Mar;125(3):462-468. doi: 10.1016/j.prosdent.2020.02.008. Epub 2020 Apr 22.
STATEMENT OF PROBLEM
Vat-polymerization additive manufacturing (AM) technologies can be used to fabricate clear silicone indices for diagnostic trial restorations, interim restorations, and direct composite resin restorations. Different support parameters, including print orientation of the virtual design of the silicone index, need to be determined when a dental device is fabricated with AM. However, the optimal printing angulation for minimal surface texture remains unclear.
PURPOSE
The purpose of this in vitro study was to measure the surface roughness of the AM clear silicone indices manufactured by using a vat-polymerization 3D printer with different print orientations.
MATERIAL AND METHODS
A virtual design of a facial silicone index was obtained, and the standard tessellation language file was exported and used to manufacture all the specimens using a vat-polymerization 3D printer. All the specimens were placed on the build platform with the same parameters, except for the print orientation which was selected as the only manufacturing variable. Therefore, the 5 different groups were 0, 25, 45, 75, and 90 degrees. To minimize variation in the procedure, all the specimens (N=50) were manufactured at the same time in the selected printer at a constant room temperature of 23°C. The printer had been previously calibrated following the manufacturer's recommendations. Surface roughness was measured in the intaglio of the left central maxillary incisor using an optical profilometer with a magnification of ×20 and an array size of 640×480. Three measurements per specimen were recorded. The Shapiro-Wilk test revealed that the data were normally distributed, and the data were analyzed by using 1-way ANOVA, followed by the post hoc Sidak test (α=.05).
RESULTS
The 0-degree angulation printing group reported the least mean ±standard deviation surface roughness (0.9 ±0.3 μm), followed by the 90-degree group (3.0 ±0.6 μm), the 75-degree group (12.4 ±1.0 μm), the 25-degree group (13.1 ±0.9 μm), and the 45-degree group (13.5 ±1.0 μm). However, no statistically significant difference was found in the surface roughness between the 25-degree and 45-degree print orientation groups (P=.296).
CONCLUSIONS
Print orientation significantly influenced the surface roughness measured on the intaglio of the facial AM silicone indices tested.
问题陈述
光聚合添加剂制造(AM)技术可用于制造诊断性修复体、临时修复体和直接复合树脂修复体的透明硅树脂指印。使用 AM 制造牙科器械时,需要确定硅树脂指印的虚拟设计的不同支撑参数,包括打印方向。然而,最小表面纹理的最佳打印角度仍不清楚。
目的
本体外研究的目的是测量使用光聚合 3D 打印机以不同打印方向制造的 AM 透明硅树脂指印的表面粗糙度。
材料和方法
获得面部硅树脂指印的虚拟设计,然后导出标准 tessellation language 文件,并使用光聚合 3D 打印机制造所有试件。除打印方向外,所有试件均在相同的参数下放置在构建平台上,该方向被选为唯一的制造变量。因此,5 个不同的组为 0、25、45、75 和 90 度。为了最大程度地减少程序中的变化,所有试件(N=50)在选定的打印机中同时制造,在 23°C 的恒定室温下。打印机已按照制造商的建议进行了校准。使用光学轮廓仪以×20 的放大率和 640×480 的阵列尺寸测量左侧中央上颌切牙印模的表面粗糙度。每个试件记录 3 次测量值。Shapiro-Wilk 检验表明数据呈正态分布,使用单向方差分析分析数据,然后使用事后 Sidak 检验(α=.05)。
结果
0 度角打印组报告的表面粗糙度最低(0.9 ±0.3 μm),其次是 90 度组(3.0 ±0.6 μm)、75 度组(12.4 ±1.0 μm)、25 度组(13.1 ±0.9 μm)和 45 度组(13.5 ±1.0 μm)。然而,25 度和 45 度打印方向组之间的表面粗糙度无统计学差异(P=.296)。
结论
打印方向显著影响测试的面部 AM 硅树脂指印凹版的表面粗糙度。
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