Numerical and Experimental Characterisation of Polylactic Acid (PLA) Processed by Additive Manufacturing (AM): Bending and Tensile Tests

Mariana P. Salgueiro, Fábio A. M. Pereira, Carlos L. Faria, Eduardo B. Pereira, João A. P. P. Almeida, Teresa D. Campos, Chaari Fakher, A. Zille, Q. Nguyen, Nuno Dourado
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Abstract

In additive manufacturing (AM), one of the most popular procedures is material extrusion (MEX). The materials and manufacturing parameters used in this process have a significant impact on a printed product’s quality. The purpose of this work is to investigate the effects of infill percentage and filament orientation on the mechanical properties of printed structures. For this reason, the characterisation of polylactic acid (PLA) was done numerically using the finite element method and experimentally through mechanical tests. The experiments involved three-point bending and tensile tests. The results showed that mechanical performance is highly dependent on these processing parameters mainly when the infill percentage is less than 100%. The highest elastic modulus was exhibited for structures with filament align at 0° and 100% infill, while the lowest one was verified for specimen filament aligned at 0° and 30% infill. The results demonstrated that the process parameters have a significant impact on mechanical performance, particularly when the infill percentage is less than 100%. Structures with filament aligned at 0° and 100% infill showed the maximum elastic modulus, whereas specimens with filament oriented at 0° and 30% infill showed the lowest. The obtained numerical agreement indicated that an inverse method based only on the load–displacement curve can yield an accurate value for this material’s elastic modulus.
通过增材制造(AM)加工的聚乳酸(PLA)的数值和实验表征:弯曲和拉伸试验
在增材制造(AM)中,最流行的工艺之一是材料挤压(MEX)。该工艺中使用的材料和制造参数对打印产品的质量有重大影响。这项工作的目的是研究填充比例和长丝取向对打印结构机械性能的影响。为此,使用有限元法对聚乳酸(PLA)的特性进行了数值分析,并通过机械测试进行了实验。实验包括三点弯曲和拉伸试验。结果表明,机械性能高度依赖于这些加工参数,主要是当填充百分比小于 100%时。长丝排列成 0° 且填充率为 100% 的结构弹性模量最高,而长丝排列成 0° 且填充率为 30% 的试样弹性模量最低。结果表明,工艺参数对机械性能有显著影响,特别是当填充率小于 100%时。长丝成 0° 排列且填充率为 100% 的结构显示出最大的弹性模量,而长丝成 0° 排列且填充率为 30% 的试样显示出最低的弹性模量。获得的数值一致表明,仅基于载荷-位移曲线的反演方法就能得出这种材料弹性模量的精确值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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