利用氧气抑制效应检验连续印刷和传统印刷的粘合力和模型尺寸

Amir Hasan Manzour, Jamal Zamani
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引用次数: 0

摘要

在约束表面槽光聚合中,模型的成型层与树脂容器底部之间的粘附力限制了印刷能力。本研究调查了数字光处理(DLP)和连续数字光处理(CDLP)中的粘附力,重点研究了氧抑制效应、树脂容器膜和模型几何形状如何影响这些粘附力。这项研究测试了四种不同的树脂桶,尤其关注透氧桶,以评估它们在降低粘附力方面的作用。在连续印刷中,使用氧气抑制层的透气槽可将分离力降低 52%。使用透气槽评估了模型几何形状对 DLP 和 CDLP 中粘合力的影响。此外,还确定了树脂吸收率与固化深度和印刷速度之间的反比关系。据观察,随着模型横截面积的增加,连续印刷中的粘附力也在增加。这些发现证明,与 DLP 相比,CDLP 的连续印刷可以实现更快的构建时间,最高速度可达 288 毫米/小时。
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Examination of adhesive force and the model’s dimension in continuous and conventional printing using the oxygen inhibition effect
In constrained surface vat photopolymerization, the adhesive force between the formed layer of the model and the bottom of the resin container restricts the printing capability. This research investigates the adhesive forces in digital light processing (DLP) and continuous digital light processing (CDLP), focusing on how the oxygen inhibition effect, resin container membrane, and model geometries affect these forces. This study tested four distinct resin vats, with particular attention given to oxygen-permeable vats, to evaluate their role in reducing adhesive forces. A permeable vat that reduced the separation force by 52% using the oxygen inhibition layer was assessed for continuous printing. The influence of model geometry on the adhesive force in DLP and CDLP was evaluated using a permeable vat. Moreover, an inverse relationship was identified between resin absorbance and both curing depth and printing speed. It was observed that as the model’s cross-sectional area increased, so did the adhesion force in continuous printing. These findings prove that continuous printing can achieve faster build times in CDLP than in DLP, with a maximum speed of 288 mm/h.
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来源期刊
CiteScore
3.80
自引率
10.00%
发文量
625
审稿时长
4.3 months
期刊介绍: The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.
期刊最新文献
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