Additive manufacturing of magnesium alloys

机译：镁合金的增材制造

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摘要

Magnesium alloys are a promising new class of degradable biomaterials that have a similar stiffness to bone, which minimizes the harmful effects of stress shielding. Use of biodegradable magnesium implants eliminates the need for a second surgery for repair or removal. There is a growing interest to capitalize on additive manufacturing's unique design capabilities to advance the frontiers of medicine. However, magnesium alloys are difficult to 3D print due to the high chemical reactivity that poses a combustion risk. Furthermore, the low vaporization temperature of magnesium and common biocompatible alloying elements further increases the difficulty to print fully dense structures that balance strength and corrosion requirements. The purpose of this study is to survey current techniques to 3D print magnesium constructs and provide guidance on best additive practices for these alloys.

机译：镁合金是一种有前途的新型可降解生物材料，具有与骨骼相似的刚度，从而最大程度地减少了应力屏蔽的有害影响。使用可生物降解的镁植入物消除了进行第二次手术以进行修复或去除的需要。利用增材制造的独特设计能力来推进医学前沿的兴趣日益浓厚。但是，镁合金由于具有燃烧危险的高化学反应性而难以进行3D打印。此外，镁和常见的生物相容性合金元素的低汽化温度进一步增加了印刷平衡强度和腐蚀要求的完全致密结构的难度。这项研究的目的是调查3D打印镁结构的当前技术，并为这些合金的最佳添加方法提供指导。

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期刊名称 Bioactive Materials
作者
Rakeshkumar Karunakaran; Sam Ortgies; Ali Tamayol; Florin Bobaru; Michael P. Sealy;
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作者单位

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年(卷),期 2020(5),1
年度 2020
页码 -1
总页数 11
原文格式 PDF
正文语种
中图分类生物学;
关键词
Additive manufacturing; Magnesium; Implants;

机译：增材制造镁放大器;

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专利

1. Wire-arc additive manufacturing of AZ31 magnesium alloy fabricated by cold metal transfer heat source: Processing, microstructure, and mechanical behavior [J] . Wang Peng, Zhang Hanzheng, Zhu Hao, Journal of Materials Processing Technology . 2021,第1期

机译：通过冷金属转移热源制造的AZ31镁合金的线弧添加剂制造：加工，微观结构和机械行为
2. Formability, microstructure evolution and mechanical properties of wire arc additively manufactured AZ80M magnesium alloy using gas tungsten arc welding [J] . Yangyang Guo, Gaofeng Quan, Yinglong Jiang, Journal of Magnesium and Alloys . 2021,第1期

机译：使用气体钨电弧焊接的钢丝弧形弧形镁合金的可成形性，微观结构演化与机械性能
3. Formability,microstructure evolution and mechanical properties of wire arc additively manufactured AZ80M magnesium alloy using gas tungsten arc welding [J] . Yangyang Guo, Gaofeng Quan, Yinglong Jiang, 镁合金学报（英文） . 2021,第001期

机译：使用气体钨电弧焊接的钢丝弧形弧形镁合金的可成形性，微观结构演化与机械性能
4. Properties of Product from Aluminum-Magnesium Alloy Obtained by Electron-Beam Additive Manufacturing [C] . A. V. Vorontsov, V. R. Utyaganova, K. S. Osipovich International Conference on Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures . 2019

机译：通过电子束添加剂制造获得的铝 - 镁合金的产品
5. Implementation of Magnesium Alloy AZ91D on Wire and Arc Additive Manufacturing [D] . Holguin, David Adrian Martinez. 2018

机译：镁合金AZ91D在线材和电弧增材制造中的实施
6. Corrosion and Corrosion Fatigue Properties of Additively Manufactured Magnesium Alloy WE43 in Comparison to Titanium Alloy Ti-6Al-4V in Physiological Environment [O] . Nils Wegner, Daniel Kotzem, Yvonne Wessarges, 2019

机译：在生理环境中与钛合金Ti-6Al-4V相比增材制造的WE43镁合金的腐蚀和腐蚀疲劳性能
7. Development of a Laser Powder Bed Fusion Process Tailored for the Additive Manufacturing of High-Quality Components Made of the Commercial Magnesium Alloy WE43 [O] . Stefan Julmi, Arvid Abel, Niklas Gerdes, 2021

机译：用于粉末融合过程的开发，适用于商业镁合金We43制造的高品质部件的添加剂制造
8. Development of Manufacturing Capability for Producing High Performance Aluminum and Magnesium Alloy Castings [R] . Iler, A. J. 1965

机译：高性能铝镁合金铸件生产制造能力的发展

Additive manufacturing of magnesium alloys

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