增材制造抗冲击最佳工艺参数值的确定

Fasih Munir Malik, S. F. Ali, B. Bal, E. F. Kececi
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引用次数: 0

摘要

3D打印作为一种制造方法越来越受欢迎,因为3D打印机变得越来越容易获得。特别是在机器的原型制作过程中,它们可以被使用,并且可以及时制造出具有高质量表面光洁度的复杂零件。然而,有必要研究不同的制造参数对成品零件材料性能的影响。具体来说,本章解释了六个不同的工艺参数对抗冲击性的影响。重点研究了打印温度、打印速度、填充比、填充模式、层高和打印方向等参数对抗冲击性能的影响。此外,还找到了抗冲击性能的最佳工艺参数。本章为3D打印部件的抗冲击性能提供了重要的指导。此外,通过使用该方法,可以确定不同3D打印工艺参数对其他材料性能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determination of Optimum Process Parameter Values in Additive Manufacturing for Impact Resistance
3D printing as a manufacturing method is gaining more popularity since 3D printing machines are becoming easily accessible. Especially in a prototyping process of a machine, they can be used, and complex parts with high quality surface finish can be manufactured in a timely manner. However, there is a need to study the effects of different manufacturing parameters on the materials properties of the finished parts. Specifically, this chapter explains the effects of six different process parameters on the impact resistance. In particular, print temperature, print speed, infill ratio, infill pattern, layer height, and print orientation parameters were studied, and their effects on impact resistance were measured experimentally. Moreover, the optimum values of the process parameters for impact resistance were found. This chapter provides an important guideline for 3D manufacturing in terms of impact resistance of the printed parts. Furthermore, by using this methodology the effects of different 3D printing process parameters on the other material, properties can be determined.
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