Ultra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated
One of the bottleneck issues for commercial scale-up of Ti additive manufacturing lies in high cost of raw material, i.e. the spherical Ti powder that is often made by gas atomization. In this study, we address this significant issue by way of powder modification & ball milling processing, which...
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Institue of Optics and Electronics, Chinese Academy of Sciences
2019
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oai:doaj.org-article:92744889e3334369acd8ed7bedd1965e2021-11-11T09:53:34ZUltra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated2096-457910.29026/oea.2019.180028https://doaj.org/article/92744889e3334369acd8ed7bedd1965e2019-05-01T00:00:00Zhttp://www.oejournal.org/article/doi/10.29026/oea.2019.180028https://doaj.org/toc/2096-4579One of the bottleneck issues for commercial scale-up of Ti additive manufacturing lies in high cost of raw material, i.e. the spherical Ti powder that is often made by gas atomization. In this study, we address this significant issue by way of powder modification & ball milling processing, which shows that it is possible to produce printable Ti powders based on ultra-low cost, originally unprintable hydrogenation-dehydrogenation (HDH) Ti powder. It is also presented that the as-printed Ti using the modified powder exhibits outstanding mechanical properties, showing a combination of excellent fracture strength (~895 MPa) and high ductility (~19.0% elongation).Hou YuhangLiu BinLiu YongZhou YinghaoSong TingtingZhou QiSha GangYan MingInstitue of Optics and Electronics, Chinese Academy of Sciencesarticleselective laser meltingpowder modificationhydrogenation-dehydrogenation (hdh) tiball millingadditive manufacturingOptics. LightQC350-467ENOpto-Electronic Advances, Vol 2, Iss 5, Pp 180028-1-180028-8 (2019) |
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selective laser melting powder modification hydrogenation-dehydrogenation (hdh) ti ball milling additive manufacturing Optics. Light QC350-467 |
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selective laser melting powder modification hydrogenation-dehydrogenation (hdh) ti ball milling additive manufacturing Optics. Light QC350-467 Hou Yuhang Liu Bin Liu Yong Zhou Yinghao Song Tingting Zhou Qi Sha Gang Yan Ming Ultra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated |
description |
One of the bottleneck issues for commercial scale-up of Ti additive manufacturing lies in high cost of raw material, i.e. the spherical Ti powder that is often made by gas atomization. In this study, we address this significant issue by way of powder modification & ball milling processing, which shows that it is possible to produce printable Ti powders based on ultra-low cost, originally unprintable hydrogenation-dehydrogenation (HDH) Ti powder. It is also presented that the as-printed Ti using the modified powder exhibits outstanding mechanical properties, showing a combination of excellent fracture strength (~895 MPa) and high ductility (~19.0% elongation). |
format |
article |
author |
Hou Yuhang Liu Bin Liu Yong Zhou Yinghao Song Tingting Zhou Qi Sha Gang Yan Ming |
author_facet |
Hou Yuhang Liu Bin Liu Yong Zhou Yinghao Song Tingting Zhou Qi Sha Gang Yan Ming |
author_sort |
Hou Yuhang |
title |
Ultra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated |
title_short |
Ultra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated |
title_full |
Ultra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated |
title_fullStr |
Ultra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated |
title_full_unstemmed |
Ultra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated |
title_sort |
ultra-low cost ti powder for selective laser melting additive manufacturing and superior mechanical properties associated |
publisher |
Institue of Optics and Electronics, Chinese Academy of Sciences |
publishDate |
2019 |
url |
https://doaj.org/article/92744889e3334369acd8ed7bedd1965e |
work_keys_str_mv |
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