Design of Printing Parameter Settings Methodology for FFF Printing of Waterproof Samples from a Flexible Material

Acta Mechanica Slovaca Pub Date : 2023-03-24 DOI:10.21496/ams.2023.017

J. Suder, Jakub Mlotek, Alan Panec, F. Fojtík

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引用次数: 1

Abstract

: 3D printing technology plays a key role in the design of prototypes and final parts. The ability to quickly and easily produce almost any shape using the Fused Filament Fabrication (FFF) method is used in almost every industrial sector, science and research. Materials for the FFF method can be divided into two groups, namely rigid and flexible. Flexible materials, in combination with pneumatics or hydraulics, offer a wide range of applications. However, in the FFF method, where individual fibers are stacked on each other and side by side, the question arises of whether the fibers will bond sufficiently to prevent water or air from passing through. This paper aims to design a methodology for the printing parameters of an FFF printer when printing from flexible materials to ensure that the filaments bond sufficiently for the printed part's water and air tightness. The proposed methodology is verified on printed samples by two tests, namely waterproof and airtightness tests. Two of the most commonly used highly flexible materials, namely TPU 30D and TPE 88, were selected for testing. The results of the work are intended to help the designers and technologists to calibrate the printing parameters for the printing of flexible materials for use in pneumatics or hydraulics.

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柔性材料防水样品FFF打印参数设置方法设计

3D打印技术在原型和最终零件的设计中起着关键作用。使用熔丝制造(FFF)方法快速轻松地生产几乎任何形状的能力几乎用于每个工业部门，科学和研究。FFF法的材料可分为刚性和柔性两类。柔性材料，结合气动或液压，提供了广泛的应用。然而，在FFF方法中，单个纤维彼此堆叠并并排堆叠，问题是纤维是否会充分结合以防止水或空气通过。本文旨在设计一种FFF打印机在柔性材料打印时的打印参数的方法，以确保细丝的结合足以保证打印部件的水密性和气密性。通过两项试验，即防水和气密性试验，在印刷样品上验证了所提出的方法。选择两种最常用的高柔性材料TPU 30D和TPE 88进行测试。这项工作的结果旨在帮助设计师和技术人员校准用于气动或液压的柔性材料打印的打印参数。

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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Acta Mechanica Slovaca

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