量化印刷参数对低力立体光刻部件机械性能的影响

Q1 Engineering
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引用次数: 0

摘要

这项工作有三个目标:(1)量化某些打印参数对低强度立体光刻(LFS)生产的零件机械性能的影响;(2)证明某些打印参数对 LFS 零件机械性能的相对影响;(3)提出优化 LFS 打印的理论参数方案。本研究介绍了 LFS 零件的机械性能与不同 LFS 印刷参数的关系,即印刷方向 (PO)、印刷层厚度 (LT)、印刷后固化时间 (CM) 和印刷后固化温度 (CT) 各三 (3) 级。迄今为止,LFS 在很大程度上尚未得到研究;然而,作为一种具有独特工程材料可用性的新方法,量化其整体性能非常重要。使用 D638-22 分析这种添加剂方法时发现,在为该研究设计的九(9)种不同样品类型中,断面模量 (SE)、极限强度 (US)、伸长率 (%e)、泊松比 (ν) 和韧性 (T) 都有很大差异。具体来说,根据所选参数的不同,SE、US、%e、ν 和 T 的最小/最大值分别为 331/463ksi、4.39/9.07ksi、1.20/3.55%、0.377/.450 和 0.033/.200ksi。如果要将该技术作为制造最终用途或临时模具的可行方法,就必须将这些广泛的属性数据与 LFS 印刷参数相结合。此外,还必须了解特定属性与特定参数之间的关系。我们使用 S/N 图来量化这两种关系。结果表明,所有打印参数都会影响 LFS 零件的机械性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantification of the effects of print parameters on the mechanical performance of low force stereolithography parts
The objectives of this work are threefold: (1) quantify the effects that certain print parameters have on the mechanical performance of parts produced by Low Force Stereolithography (LFS), (2) demonstrate the relative impact that certain print parameters have on the mechanical performance of LFS parts and (3) propose theoretical parameter schemas to optimize LFS prints. This work presents the mechanical properties of LFS parts with respect to distinct LFS print parameters, namely print orientation (PO), print layer thickness (LT), post-print cure time (CM) and post-print cure temperature (CT) at three (3) levels apiece. To date, LFS has been largely unstudied; however, as a novel approach with unique engineering material availability, it is important to quantify its overall performance. Using D638-22 to analyze this additive method, it was found that the Segment Modulus (SE), Ultimate Strength (US), percent elongation (%e), Poisson's ratio (ν) and Toughness (T) all varied greatly across the nine (9) distinct sample types designed for the study. Specifically, SE, US, %e, ν and T achieved a minimum/maximum of 331/463 ksi, 4.39/9.07 ksi, 1.20/3.55%, 0.377/.450 and 0.033/.200 ksi, respectively, depending on the parameters chosen. This wide range of property data must be coupled to LFS print parameters if the technology is to be implemented as a viable approach to manufacture end-use or provisional tooling. Furthermore, it is essential to understand the relationship between a given property and a specific parameter. S/N plots were used to quantify both of these relationships. The results indicate that all print parameters influence the mechanical performance of LFS parts.
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来源期刊
International Journal of Lightweight Materials and Manufacture
International Journal of Lightweight Materials and Manufacture Engineering-Industrial and Manufacturing Engineering
CiteScore
9.90
自引率
0.00%
发文量
52
审稿时长
48 days
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