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Aluminum Parts Fabricated by Laser-Foil-Printing Additive Manufacturing: Processing Microstructure and Mechanical Properties

机译：通过激光箔印刷增材制造制造的铝制零件：加工微结构和机械性能

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Fabrication of dense aluminum (Al-1100) parts (>99.3% of relative density) by our recently developed laser-foil-printing (LFP) additive manufacturing method was investigated as described in this paper. This was achieved by using a laser energy density of 7.0 MW/cm to stabilize the melt pool formation and create sufficient penetration depth with 300 μm thickness foil. The highest yield strength (YS) and ultimate tensile strength (UTS) in the LFP-fabricated samples reached 111 ± 8 MPa and 128 ± 3 MPa, respectively, along the laser scanning direction. These samples exhibited greater tensile strength but less ductility compared to annealed Al-1100 samples. Fractographic analysis showed elongated gas pores in the tensile test samples. Strong crystallographic texturing along the solidification direction and dense subgrain boundaries in the LFP-fabricated samples were observed by using the electron backscattered diffraction (EBSD) technique.

机译：如本文所述，研究了通过我们最近开发的激光箔印刷（LFP）增材制造方法制造致密铝（Al-1100）零件（相对密度> 99.3％）的方法。这是通过使用7.0 MW / cm的激光能量密度来稳定熔池形成并使用300μm厚度的箔片产生足够的穿透深度来实现的。在LFP制造的样品中，沿着激光扫描方向的最高屈服强度（YS）和极限拉伸强度（UTS）分别达到111±8 MPa和128±3 MPa。与退火的Al-1100样品相比，这些样品表现出更高的拉伸强度但延展性更低。分形分析显示拉伸测试样品中的气孔拉长。通过使用电子背散射衍射（EBSD）技术，可以观察到在LFP制造的样品中沿凝固方向的强晶体织构和致密的亚晶界。

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期刊名称 Materials
作者
Chia-Hung Hung; Yingqi Li; Austin Sutton; Wei-Ting Chen; Xiangtao Gong; Heng Pan; Hai-Lung Tsai; Ming C. Leu;
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作者单位

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年(卷),期 2020(13),2
年度 2020
页码 -1
总页数 13
原文格式 PDF
正文语种
中图分类外科学;
关键词
additive manufacturing; laser-foil-printing; aluminum alloys;

机译：增材制造;铝箔印刷;铝合金;
入库时间 2022-08-21 11:42:44

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1. Aluminum Parts Fabricated by Laser-Foil-Printing Additive Manufacturing: Processing, Microstructure, and Mechanical Properties [J] . Industrial and organizational psychology . 2020,第2期

机译：由激光箔印刷添加剂制造制造的铝配件：加工，微观结构和机械性能
2. Mechanical properties of Zr-based bulk metallic glass parts fabricated by laser-foil-printing additive manufacturing [J] . Li Yingqi, Shen Yiyu, Leu Ming C., Materials Science and Engineering . 2019,第JANa16期

机译：激光箔印刷增材制造的Zr基大块金属玻璃零件的机械性能
3. Enhanced mechanical properties for 304L stainless steel parts fabricated by laser-foil-printing additive manufacturing [J] . Hung Chia-Hung, Sutton Austin, Li Yingqi, Journal of Manufacturing Processes . 2019,第Sepa期

机译：激光箔印刷增材制造所制造的304L不锈钢零件的增强的机械性能
4. The Microstructure and Mechanical Properties of 308L Alloy Fabricated by Micro-plasma Arc Additive Manufacturing [C] . Ren Xianghui, Yu Chen, Zhang Wenjie International Russian-Chinese Symposium "New Materials and Technologies" . 2020

机译：微等离子体弧添加制造制造308L合金的微观结构和力学性能
5. SLM processing-microstructure-mechanical property correlation in an aluminum alloy produced by additive manufacturing [D] . Abstetar, Bryce 2016

机译：增材制造铝合金的SLM加工-组织-力学性能相关性
6. Microstructure and Mechanical Properties of AlSi7Mg0.6 Aluminum Alloy Fabricated by Wire and Arc Additive Manufacturing Based on Cold Metal Transfer (WAAM-CMT) [O] . Qingfeng Yang, Cunjuan Xia, Yaqi Deng, 2019

机译：基于冷金属转移（WAAM-CMT）的线电弧添加制造AlSi7Mg0.6铝合金的组织和力学性能
7. Effect of Energy Input on Microstructure and Mechanical Properties of Titanium Aluminide Alloy Fabricated by the Additive Manufacturing Process of Electron Beam Melting [O] . Ashfaq Mohammad, Abdulrahman M. Alahmari, Muneer Khan Mohammed, 2017

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Aluminum Parts Fabricated by Laser-Foil-Printing Additive Manufacturing: Processing Microstructure and Mechanical Properties

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