体外比较四种 3D 打印模型在不同储存条件下的尺寸稳定性。

Vanessa Knode, Björn Ludwig, Sinan Hamadeh, Nikolaos Pandis, Padhraig S Fleming
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引用次数: 0

摘要

目的:研究树脂和植物基可降解塑料(PLA)制成的各种三维打印模型在特定储存条件下长达 21 周的尺寸稳定性:研究由树脂和植物基生物降解塑料(PLA)制成的各种三维打印模型在特定储存条件下长达 21 周的尺寸稳定性:对四种不同的打印材料(包括 Draft V2、研究模型 2 和 Ortho 模型 OD01 树脂以及聚乳酸矿物)进行了为期 21 周的评估。80 个三维打印模型被平均分成两组,一组在黑暗中保存,另一组暴露在日光下。所有模型都存放在恒定的室温(20°C)下。使用 OnyxCeph 软件(Image Instruments GmbH,德国开姆尼茨)中的 Inspect 3D 模块每隔 7 周进行一次测量:结果:所有模型的尺寸都发生了变化,在研究期间收缩达 0.26 毫米。大部分收缩发生在基线至 T1 期,但 T1 至 T2 期(P < .001)和 T1 至 T3 期(P < .001)也出现了显著的进一步收缩。总体而言,暴露在日光下的收缩率更高,每种树脂类型的收缩率也更高(P < .01)。Ortho 模型 OD01 树脂的收缩程度最小(0.16 毫米,SD = 0.06),Draft V2 树脂的收缩程度最大(0.23 毫米,SD = 0.06;P < .001):结论:三维打印模型的收缩是普遍现象,无论使用哪种材料(聚乳酸或树脂)都会产生收缩,而且与品牌或储存条件无关。因此,最好立即将三维打印技术用于正畸矫治器的制作,而长期储存则有可能导致制作出不准确的正畸保持器和矫治器。
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An in vitro comparison of the dimensional stability of four 3D-printed models under various storage conditions.

Objectives: To investigate the dimensional stability of various 3D-printed models derived from resin and plant-based, biodegradable plastics (PLA) under specific storage conditions for a period of up to 21 weeks.

Materials and methods: Four different printing materials, including Draft V2, study model 2, and Ortho model OD01 resins as well as PLA mineral, were evaluated over a 21-week period. Eighty 3D-printed models were divided equally into two groups, with one group stored in darkness and the other exposed to daylight. All models were stored at a constant room temperature (20°C). Measurements were taken at 7-week intervals using the Inspect 3D module in OnyxCeph software (Image Instruments GmbH, Chemnitz, Germany).

Results: Dimensional change was noted for all of the models with shrinkage of up to 0.26 mm over the study period. Most contraction occured from baseline to T1, although significant further contraction also arose from T1 to T2 (P < .001) and T1 to T3 (P < .001). More shrinkage was observed when exposed to daylight overall and for each resin type (P < .01). The least shrinkage was noted with Ortho model OD01 resin (0.16 mm, SD = 0.06), and the highest level of shrinkage was observed for Draft V2 resin (0.23 mm, SD = 0.06; P < .001).

Conclusions: Shrinkage of 3D-printed models is pervasive, arising regardless of the material used (PLA or resin) and being independent of the brand or storage conditions. Consequently, immediate utilization of 3D printing for orthodontic appliance purposes may be preferable, with prolonged storage risking the manufacture of inaccurate orthodontic retainers and appliances.

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