Microstructures and Properties for a Superalloy Powder Mixture Processed by Electron Beam Melting

J. Hernandez; L. E. Murr; K. N. Amato; E. Martinez; P. W. Shindo; C. A. Terrazas; E. Rodriguez; F. Medina; R. B. Wicker; S. J. Li; X. Y. Cheng; F. Yang

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Microstructures and Properties for a Superalloy Powder Mixture Processed by Electron Beam Melting

机译：电子束熔炼超合金粉末混合物的组织和性能

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The microstructures and residual hardnesses for solid components of 2-phase TiAl (Ti-48Al-2Nb-2Cr in a / o ) and Inconel 625 (Ni-19Cr-9Mo-4Nb in w / o ) fabricated by electron beam melting (EBM) were compared with a 10:1 blend of TiAl: alloy 625 pre-alloyed powders producing a complex alloy having the composition 48Ti-24Al-9Ni-8Nb-4.5Cr-4Ni (in w / o ).? The blended alloy hardness (HV) reached 7.5 GPa in contrast to 1.4 GPa for the Alloy 625 and 4.0 for the 2-phase TiAl alloy.? Reticulated mesh samples and stochastic foam samples prepared from the blended alloy by EBM exhibited a relative stiffness versus relative density plotted on a log-log basis consistent with other reference alloys fitted to a straight line with a slope n = 2 for ideal open cellular materials.

机译：电子束熔化（EBM）制成的两相TiAl（Ti / 48Al-2Nb-2Cr in / o）和Inconel 625（Ni-19Cr-9Mo-4Nb w / o）的固体成分的显微组织和残余硬度将其与TiAl：合金625预合金粉末的10：1混合物进行比较，产生具有48Ti-24Al-9Ni-8Nb-4.5Cr-4Ni组成的复合合金（以w / o计）。混合合金硬度（HV）达到7.5 GPa，而625合金为1.4 GPa，两相TiAl合金为4.0 GPa。由混合合金通过EBM制备的网状样品和随机泡沫样品显示出相对刚度对相对密度，以对数对数作图，与其他参比合金拟合为理想开孔材料的斜率n = 2的直线一致。

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《Journal of Materials Science Research》 |2012年第3期|共4页
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J. Hernandez; L. E. Murr; K. N. Amato; E. Martinez; P. W. Shindo; C. A. Terrazas; E. Rodriguez; F. Medina; R. B. Wicker; S. J. Li; X. Y. Cheng; F. Yang;
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1. Microstructures and Properties for a Superalloy Powder Mixture Processed by Electron Beam Melting [J] . J. Hernandez, L. E. Murr, K. N. Amato, Journal of Materials Science Research . 2012,第3期

机译：电子束熔炼超合金粉末混合物的组织和性能
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3. Additive manufacturing of nickel-based superalloy Inconel 718 by selective electron beam melting: Processing window and microstructure [J] . Harald Ernst Helmer, Carolin Koerner, Robert Friedrich Singer Journal of Materials Research . 2014,第17期

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5. Microstructures and properties for titanium aluminide superalloy prototypes fabricated by electron beam melting and thermally processed [D] . Hernandez, Jennifer. 2013

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7. Microstructures and Properties for a Superalloy Powder Mixture Processed by Electron Beam Melting [O] . F. Yang, X. Y. Cheng, R. B. Wicker, 2012

机译：电子束熔炼超合金粉末混合物的组织和性能

Microstructures and Properties for a Superalloy Powder Mixture Processed by Electron Beam Melting

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