The Feature Resolution and Dimensional Control in Freeform Solidification of Alumina Systems by Stereolithography

IF 2.7 Q1 MATERIALS SCIENCE, CERAMICS Ceramics-Switzerland Pub Date : 2023-10-17 DOI:10.3390/ceramics6040125
Mustafa K. Alazzawi, Chawon Hwang, Victoria R. Tsarkova, Richard A. Haber
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Abstract

Controlling the feature resolution and dimension of printed products using stereolithography requires a comprehensive understanding of compositional and printing variables. Balancing these variables adds more complexity to manufacturing near net shape products. In this study, the compositional variables examined include particle size and solid content using two resins, and printing variables include layer thickness and energy dose. Choosing the energy dose for curing depends on compositional variables and consequently affects the degree of scattering. The results shows that light scattering determines the changes in the feature resolution and lateral dimensions. The layer thickness only affects the feature resolution and not the lateral dimensions. The vertical dimension does not significantly change with the chosen variables. In this study, fine-tuning the variables is shown to produce parts with high precision and resolution. Both compositional and printing variables play a key role in achieving near net shape products.
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立体光刻氧化铝自由凝固体系的特征分辨与尺寸控制
使用立体光刻控制印刷产品的特征分辨率和尺寸需要对组成和印刷变量有全面的了解。平衡这些变量增加了制造接近净形状产品的复杂性。在本研究中,使用两种树脂检测的组成变量包括粒径和固含量,打印变量包括层厚度和能量剂量。固化能量剂量的选择取决于成分变量,从而影响散射程度。结果表明,光散射决定了特征分辨率和横向尺寸的变化。层厚度只影响特征分辨率,而不影响横向尺寸。垂直维度不会随着所选变量的变化而发生显著变化。在本研究中,对变量进行微调可以产生高精度和高分辨率的零件。成分和印刷变量在实现近净形状产品方面都起着关键作用。
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来源期刊
CiteScore
3.00
自引率
7.10%
发文量
66
审稿时长
10 weeks
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