Microstructure and Strength of Ti-6Al-4V Samples Additively Manufactured with TiC Heterogeneous Nucleation Site Particles

Our research aims to investigate the fabrication of additively manufactured (AMed) Ti-6Al-4V samples under reduced power with the addition of TiC heterogeneous nucleation site particles. For this aim, Ti-6Al-4V samples are fabricated with and without TiC heterogeneous nucleation site particles using...

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Veröffentlicht in:	Materials 2023-08, Vol.16 (17), p.5974
Hauptverfasser:	Watanabe, Yoshimi, Yamada, Shintaro, Chiba, Tadachika, Sato, Hisashi, Miura, Seiji, Abe, Kenshiro, Kato, Tomotsugu
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Sprache:	eng
Schlagworte:	Additive manufacturing Cooling Gas formation Metal powders Microstructure Nucleation Powders Solidification Temperature Titanium base alloys Titanium carbide
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container_title	Materials
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creator	Watanabe, Yoshimi Yamada, Shintaro Chiba, Tadachika Sato, Hisashi Miura, Seiji Abe, Kenshiro Kato, Tomotsugu
description	Our research aims to investigate the fabrication of additively manufactured (AMed) Ti-6Al-4V samples under reduced power with the addition of TiC heterogeneous nucleation site particles. For this aim, Ti-6Al-4V samples are fabricated with and without TiC heterogeneous nucleation site particles using an EOS M 290 machine under optimal parameters and reduced power conditions. The microstructure and tensile behavior of the produced samples were studied. In addition, a single-track test was performed to obtain a good understanding of the suppression of gas pores and balling formation with the addition of TiC heterogeneous nucleation site particles. It was found that the formation of gas pores and balling was suppressed with the addition of heterogeneous nucleation site particles within the metallic powder.
doi_str_mv	10.3390/ma16175974
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subjects	Additive manufacturing Cooling Gas formation Metal powders Microstructure Nucleation Powders Solidification Temperature Titanium base alloys Titanium carbide
title	Microstructure and Strength of Ti-6Al-4V Samples Additively Manufactured with TiC Heterogeneous Nucleation Site Particles
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