Using Finite Element Analysis in the 3D Printing of Metals

IF 0.5 Q4 ENGINEERING, CHEMICAL Hungarian Journal of Industry and Chemistry Pub Date : 2021-01-01 DOI:10.33927/hjic-2021-24

Hussein Alzyod, P. Ficzere

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引用次数: 3

Abstract

Over the last few years, Additive Manufacturing, or as it is sometimes known, 3D printing, has become a significant research field for researchers worldwide. The necessity to increase the strength of materials and minimize their weight in the automotive and aviation industries has urged engineers and scientists to conduct more investigations and identify manufacturing methods to replace the classical ones. Additive manufacturing involves building a geometry layer by layer from a wide range of materials, which helps to utilize materials efficiently while minimizing the amount of waste produced as well as build complex, large geometries and light-weight components. Furthermore, it minimizes fabrication and processing times. In this paper, three different alloys were printed (TiAl6V4, AlSi10Mg and 316L) using MSC Simufact software to investigate the effect of changing machines on the effective stress and surface deviation. Furthermore, thermal analysis as well as mechanical, thermal and thermomechanical calibrations were carried out to determine a parameter set consisting of the laser power, inherent strains, fraction of exposure energy and volumetric expansion factor.

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有限元分析在金属3D打印中的应用

在过去的几年里，增材制造，或者有时被称为3D打印，已经成为全球研究人员的一个重要研究领域。在汽车和航空工业中，提高材料强度和减轻重量的必要性促使工程师和科学家进行更多的研究，并确定替代传统制造方法的制造方法。增材制造涉及到从各种材料逐层构建几何形状，这有助于有效利用材料，同时最大限度地减少产生的废物量，以及构建复杂，大型几何形状和轻质组件。此外，它最大限度地减少了制造和加工时间。本文采用MSC Simufact软件对三种不同合金(TiAl6V4、AlSi10Mg和316L)进行了打印，研究了更换机床对有效应力和表面偏差的影响。此外，还进行了热分析以及力学、热学和热力学标定，确定了由激光功率、固有应变、暴露能分数和体积膨胀系数组成的参数集。

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来源期刊

Hungarian Journal of Industry and Chemistry ENGINEERING, CHEMICAL-

自引率

50.00%

发文量

审稿时长

6 weeks