熔融沉积法制备正畸母模过程中内部结构密度的影响

J. Milde, Dimitri Papagiannopoulos, Andrej Thurzo
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摘要

摘要本文主要研究了采用熔融沉积成型(FDM)技术制作牙母模型过程中,填充材料(部件内部结构)对牙母模型尺寸精度的影响,并对牙母模型的抽真空工艺进行了研究。在这种情况下,组件是两个个体患者(Tzina, Dimitris)的上颌(上颌牙齿),这是通过口腔内3D扫描获得的。患者Tzina在口腔内扫描时27岁,Dimitris 23岁。3D打印的方法是FDM,本研究使用的材料是热塑性高冲击聚苯乙烯(HIPS)。设置了60%、80%和100%三种不同的填充密度百分比。每组有5个标本(共30个3D打印牙齿模型,Tzina 15个,Dimitris 15个)。3D打印完成后,利用GOM ATOS II三重扫描MV 170光学3D扫描仪对模型进行数字化测量,并与初始数字模型值进行比较。然后将主牙模型进行essix -aligner形成(single press)过程,并重新扫描和测量。本研究的结果是检查如果牙科主模型在这些过程后保持尺寸准确,以及哪种填充物提供最佳和医学上批准的准确性。
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Impact of the Internal Structure Density in the Process of Fabrication of Orthodontic Master Models by Fused Deposition Modeling
Abstract The article focuses on the influence of infill (internal structure of components) in the dimensional accuracy of dental master models during the processes of their fabrication by Fused Deposition Modeling (FDM) technology, and their vacuuming process for production of clear orthodontic aligners. The components, in this case, were the upper jaws (maxillary teeth) of two individual patients (Tzina, Dimitris), which were obtained by intraoral 3D scanning. Patient Tzina at the time of intra-oral scanning was 27 years old and Dimitris was 23 years old. The method of 3D printing was the FDM, and the material used in this research was thermoplastic high impact polystyrene (HIPS). Three different percentages of infill density were set, 60%, 80%, and 100%. For each setting, there were five specimens (thirty 3D printed dental models in total, 15 for Tzina and 15 for Dimitris). After the 3D printing, the models were digitized and measured by GOM ATOS II Triple Scan MV 170 optical 3D scanner and compared with the values of the initial digital models. Then the dental master models underwent the process of Essix-aligners formation (single press) and were rescanned and measured again. The outcome of this research was to examine if the dental master models remain dimensionally accurate after these processes, and which infill provides the optimal and medically approved accuracy.
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