原子扩散增材制造17-4 PH不锈钢的力学性能和疲劳性能

IF 3.3 Q2 ENGINEERING, MANUFACTURING

Journal of Manufacturing and Materials Processing Pub Date : 2023-09-26 DOI:10.3390/jmmp7050172

Jon Rodriguez, Aitor Zuriarrain, Aitor Madariaga, Pedro J. Arrazola, Erika Dominguez, Itziar Fraile, Daniel Soler

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引用次数: 0

摘要

增材制造(AM)作为传统制造工艺的替代和补充技术正变得越来越重要。在增材制造技术中，原子扩散增材制造(ADAM)技术是一种新型的基于挤压的金属细丝制造技术。本文选择了广泛使用的17-4 PH不锈钢长丝，研究了ADAM技术不同沉积策略对其力学性能的影响。打印的部件具有与其他更发达的增材制造技术所获得的机械性能相当的机械性能。在拉伸和疲劳试验中，得到的数值通常受到沉积策略的很大影响，在水平构建方向的样品中获得更好的结果。有趣的是，这种影响也被认为是加工后处理(车削)，在拉伸试验的情况下没有显著的影响，而在疲劳试验中，它导致疲劳寿命在测试应力范围内提高2到4倍。

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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Mechanical Properties and Fatigue Performance of 17-4 PH Stainless Steel Manufactured by Atomic Diffusion Additive Manufacturing Technology

Additive Manufacturing (AM) is gaining importance as an alternative and complementary technology to conventional manufacturing processes. Among AM technologies, the Atomic Diffusion Additive Manufacturing (ADAM) technology is a novel extrusion-based process involving metallic filaments. In this work, the widely used 17-4 PH stainless steel filament was selected to study the effect of different deposition strategies of ADAM technology on mechanical properties. The printed parts had mechanical properties comparable to those obtained by other more developed AM technologies. In the case of tensile and fatigue tests, obtained values were in general greatly affected by deposition strategy, achieving better results in horizontal built orientation specimens. Interestingly, the effect was also considered of machining post-process (turning), which in the case of the tensile test had no remarkable effect, while in fatigue tests it led to an improvement in fatigue life of two to four times in the tested range of stresses.

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