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The role of a low-energy-density re-scan in fabricating crack-free Al(85)Ni(5)Y(6)Co(2)Fe(2) bulk metallic glass composites via selective laser melting

机译：低能量密度重新扫描在通过选择性激光熔化制造无裂纹的Al（85）Ni（5）Y（6）Co（2）Fe（2）大块金属玻璃复合材料中的作用

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In this paper, we have investigated the use of a re-scanning strategy to prevent propagation of macro-cracks during the selective laser melting of an Al85Ni5Y6Co2Fe2 bulk metallic glass composites (BMGCs). These cracks form as a result of the high residual stress caused by the rapid heating and cooling of the material by the laser beam. Unlike crystalline materials, the BMGCs possess a supercooled liquid region in which the residual stress can be relieved by plastic flow. We show that by using a high power initial scan (designed to melt the material) followed by a lower power re-scan (for stress relief) cracking can be prevented. Using this approach, crack-free Al85Ni5Y6Co2Fe2 BMGCs components have been fabricated, including a gear with a diameter similar to 25 mm and height similar to 10 mm. (C) 2014 Elsevier Ltd. All rights reserved.

机译：在本文中，我们研究了使用重新扫描策略来防止在选择性激光熔化Al85Ni5Y6Co2Fe2块状金属玻璃复合材料（BMGC）时宏观裂纹的传播。这些裂纹的形成是由于激光束对材料进行快速加热和冷却而导致的高残余应力的结果。与晶体材料不同，BMGC具有过冷的液体区域，在其中可以通过塑性流动来消除残余应力。我们表明，通过使用高功率初始扫描（旨在熔化材料），然后使用低功率重新扫描（以消除应力），可以防止破裂。使用这种方法，可以制造出无裂纹的Al85Ni5Y6Co2Fe2 BMGCs组件，包括直径近似25毫米，高度近似10毫米的齿轮。（C）2014 Elsevier Ltd.保留所有权利。

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Li, X. P.; Kang, C. W.; Huang, H.; Sercombe, T. B.;
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年度 2014
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1. The role of a low-energy-density re-scan in fabricating crack-free Al_(85)Ni_5Y_6Co_2Fe_2 bulk metallic glass composites via selective laser melting [J] . X.P. Li, C.W. Kang, H. Huang, Materials & design . 2014,第nova期

机译：低能量密度重新扫描在通过选择性激光熔化制备无裂纹的Al_（85）Ni_5Y_6Co_2Fe_2块状金属玻璃复合材料中的作用
2. 3D printing of crack-free high strength Zr-based bulk metallic glass composite by selective laser melting [J] . Ouyang Di, Li Ning, Xing Wei, Intermetallics . 2017,第期

机译：通过选择性激光熔化，3D印刷裂缝高强度ZR基散装金属玻璃复合材料
3. Microstructure and mechanical properties of Fe-based bulk metallic glass composites fabricated by selective laser melting [J] . Zou Yongming, Qiu Zhaoguo, Tan Chaolin, Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites . 2020,第1期

机译：选择性激光熔化制造的Fe系散装金属玻璃复合材料的组织和力学性能
4. Manufacturing of Bulk Metallic Glasses with Large Dimensions using Either Selective Laser Melting or Spark Plasma Sintering [C] . J. M. PELLETIER, S. CARDINAL, F. MERCIER, European Powder Metallurgy Association;Euro PM congress exhibition . 2019

机译：选择性激光熔融或等离子烧结制造大尺寸大块金属玻璃
5. A Micromechanical-based Computational Framework for Modeling the Mechanical Properties of the Metallic Parts Fabricated by Selective Laser Melting. [D] . Ahmadi, Arman. 2016

机译：基于微机械的计算框架，用于对通过选择性激光熔化制造的金属零件的机械性能进行建模。
6. Structural and Mechanical Characteristics of Cu50Zr43Al7 Bulk Metallic Glass Fabricated by Selective Laser Melting [O] . Xiaoyang Lu, Mussokulov Nursulton, Yulei Du, 2019

机译：选择性激光熔化制备Cu50Zr43Al7块状金属玻璃的结构和力学特性
7. The role of a low-energy-density re-scan in fabricating crack-free Al85Ni5Y6Co2Fe2 bulk metallic glass composites via selective laser melting [O] . Li, Xiaopeng, Kang, C. W, Huang, H, 2014

机译：低能量密度重新扫描在通过选择性激光熔化制备无裂纹的Al85Ni5Y6Co2Fe2块状金属玻璃复合材料中的作用

The role of a low-energy-density re-scan in fabricating crack-free Al(85)Ni(5)Y(6)Co(2)Fe(2) bulk metallic glass composites via selective laser melting

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