HIGH COMPRESSIVE STRENGTH 3D PRINTED INFILL BASED ON STRUT-BASED LATTICE STRUCTURE

Q4 Earth and Planetary Sciences ASEAN Engineering Journal Pub Date : 2022-11-29 DOI:10.11113/aej.v12.17813

Reyes Garcia, A. Chua

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引用次数: 2

Abstract

In an attempt to make Additive Manufacturing more material-efficient, researchers come across the idea of re-enforcing 3D printed objects by infill pattern modification. In line with this concept, this paper introduces a new innovative infill pattern inspired by a variety of strut-base lattice structures that is stronger and more material-efficient than conventional 3D printing infill. This research provides the design, analysis, and experimental results of the developed 3D printed infills, then compared with a benchmark infill. Three (3) strut-based lattice test samples, namely Body-Centered Cubic (BCC), Face-Centered Cubic (FCC), and Octet-Truss, were designed and 3D printed with an equal amount of material used, then undergo compressive test on Universal Testing Machine. Results showed that BCC, FCC, and Octet-truss infill pattern print has a compressive strength of 11.25 MPa, 8.47 MPa, 7.44 MPa consecutively, while benchmark infill has 9.73 MPa. This data proves that with the same amount of material consumed, the BCC lattice structure infill withstands a compressive load higher than the benchmark infill, which is offered in a 3D printing slicer.

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高抗压强度3d打印填充基于支柱型晶格结构

为了提高增材制造的材料效率，研究人员想出了通过填充图案修改来增强3D打印对象的想法。根据这一概念，本文引入了一种新的创新填充图案，其灵感来源于各种支柱基础晶格结构，该图案比传统的3D打印填充更坚固、更具材料效率。本研究提供了所开发的3D打印填充物的设计、分析和实验结果，然后与基准填充物进行了比较。设计三（3）个基于结构的晶格测试样品，即体心立方（BCC）、面心立方（FCC）和Octet-Truss，并使用等量的材料进行3D打印，然后在通用测试机上进行压缩测试。结果表明，BCC、FCC和Octet-truss填充图案的抗压强度分别为11.25MPa、8.47MPa和7.44MPa，而基准填充的抗压强度为9.73MPa。该数据证明，在消耗相同数量的材料的情况下，BCC晶格结构填充物能够承受比3D打印切片机中提供的基准填充物更高的压缩载荷。

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ASEAN Engineering Journal Engineering-Engineering (all)

CiteScore

0.60

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0.00%

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