田口灰色关联分析法优化不同填充方式的三维打印聚乳酸结构

IF 9.9 Q1 MATERIALS SCIENCE, COMPOSITES Advanced Industrial and Engineering Polymer Research Pub Date : 2023-01-01 DOI:10.1016/j.aiepr.2022.06.002
Joel John, Deepak Devjani, Shafahat Ali, Said Abdallah, Salman Pervaiz
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引用次数: 15

摘要

在一些工程应用中,对坚固而轻便的材料的需求呈指数级增长。与传统制造技术相比,增材制造和3D打印技术可以以很小的成本实现这一目标。以前的大多数研究主要集中在印刷参数上,即构建方向、填充密度和层高等。此外,大多数研究将强度视为输出响应。然而,当涉及到蜂窝几何形状和喷嘴直径时,这些参数在文献中被发现是有限的。类似地,在以前的研究中很少发现刚度、强度、韧性和弹性等输出响应的组合。目前的研究旨在通过使用田口实验设计和灰色关联分析来捕捉文献中的上述差距,重点关注细胞几何形状、喷嘴直径和应变速率。根据ASTM D638标准对六种不同图案的样品进行的拉伸测试结果表明,正方形图案的样品在拉伸下表现最好,并且比其他五种图案保持更多的机械强度。灰色关联分析表明,对于0.8mm的较大喷嘴直径、5mm/分钟的应变速率和方形蜂窝几何形状,获得了最高的灰色关联等级(GRG)。据观察,最大的影响因素是喷嘴直径(48.99%),而根据方差分析(ANOVA)获得的细胞几何形状排名第二(40.78%)。灰色关联分析简化了复杂的3D打印工艺优化。
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Optimization of 3D printed polylactic acid structures with different infill patterns using Taguchi-grey relational analysis

In several engineering applications, the demand for robust yet lightweight materials have exponentially increased. Additive Manufacturing and 3D printing technology have the scope to make this possible at a fraction of the cost compared to traditional manufacturing techniques. Majority of the previous studies are focused mainly towards the printing parameters namely build orientation, infill density, and layer height etc. Also, most studies considered strength as an output response. However, when it comes to the cellular geometry and nozzle diameter, these parameters were found limited in the literature. Similarly, the combination of output responses such as stiffness, strength, toughness and resilience are found rarely in the previous studies. The current study is designed to capture the said gap in the literature with focus on cell geometry, nozzle diameter and strain rate by using the Taguchi design of experimentation and Grey Relational Analysis. Tensile test results performed on six different patterned samples under ASTM D638 standard suggest that square patterned samples perform the best under tension and retain more mechanical strength than the other five patterns. The grey relational analysis indicates that highest grey relational grade (GRG) was achieved for the larger nozzle diameter of 0.8 mm, strain rate of 5 mm per minute and square cellular geometry. It has been observed that highest contributing factor was nozzle diameter (48.99%), whereas cellular geometry was ranked second with (40.78%) as obtained from analysis of variance (ANOVA). The grey relational analysis simplified the complex 3D printing process optimization.

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来源期刊
Advanced Industrial and Engineering Polymer Research
Advanced Industrial and Engineering Polymer Research Materials Science-Polymers and Plastics
CiteScore
26.30
自引率
0.00%
发文量
38
审稿时长
29 days
期刊最新文献
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