A defect-resistant Co–Ni superalloy for 3D printing

A defect-resistant Co–Ni superalloy for 3D printing

Additive manufacturing promises a major transformation of the production of high economic value metallic materials. Here, the authors describe a new class of 3D printable superalloys that are amenable to crack-free 3D printing via electron beam melting as well as selective laser melting.

Bibliographic Details
Main Authors: Sean P. Murray, Kira M. Pusch, Andrew T. Polonsky, Chris J. Torbet, Gareth G. E. Seward, Ning Zhou, Stéphane A. J. Forsik, Peeyush Nandwana, Michael M. Kirka, Ryan R. Dehoff, William E. Slye, Tresa M. Pollock
Format: Article
Language:English
Published: Nature Publishing Group 2020-10-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-020-18775-0
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spelling doaj-150c4a4dc3d34a149d1426e8f674968e2021-10-03T11:51:51ZengNature Publishing GroupNature Communications2041-17232020-10-0111111110.1038/s41467-020-18775-0A defect-resistant Co–Ni superalloy for 3D printingSean P. Murray0Kira M. Pusch1Andrew T. Polonsky2Chris J. Torbet3Gareth G. E. Seward4Ning Zhou5Stéphane A. J. Forsik6Peeyush Nandwana7Michael M. Kirka8Ryan R. Dehoff9William E. Slye10Tresa M. Pollock11Materials Department, University of California Santa BarbaraMaterials Department, University of California Santa BarbaraMaterials Department, University of California Santa BarbaraMaterials Department, University of California Santa BarbaraDepartment of Earth Science, University of California Santa BarbaraR&D Department, Carpenter Technology Corp.R&D Department, Carpenter Technology Corp.Materials Science and Technology Division, Oak Ridge National LaboratoryMaterials Science and Technology Division, Oak Ridge National LaboratoryMaterials Science and Technology Division, Oak Ridge National LaboratoryR&D Department, Carpenter Technology Corp.Materials Department, University of California Santa BarbaraAdditive manufacturing promises a major transformation of the production of high economic value metallic materials. Here, the authors describe a new class of 3D printable superalloys that are amenable to crack-free 3D printing via electron beam melting as well as selective laser melting.https://doi.org/10.1038/s41467-020-18775-0
collection DOAJ
language English
format Article
sources DOAJ
author Sean P. Murray
Kira M. Pusch
Andrew T. Polonsky
Chris J. Torbet
Gareth G. E. Seward
Ning Zhou
Stéphane A. J. Forsik
Peeyush Nandwana
Michael M. Kirka
Ryan R. Dehoff
William E. Slye
Tresa M. Pollock
spellingShingle Sean P. Murray
Kira M. Pusch
Andrew T. Polonsky
Chris J. Torbet
Gareth G. E. Seward
Ning Zhou
Stéphane A. J. Forsik
Peeyush Nandwana
Michael M. Kirka
Ryan R. Dehoff
William E. Slye
Tresa M. Pollock
A defect-resistant Co–Ni superalloy for 3D printing
Nature Communications
author_facet Sean P. Murray
Kira M. Pusch
Andrew T. Polonsky
Chris J. Torbet
Gareth G. E. Seward
Ning Zhou
Stéphane A. J. Forsik
Peeyush Nandwana
Michael M. Kirka
Ryan R. Dehoff
William E. Slye
Tresa M. Pollock
author_sort Sean P. Murray
title A defect-resistant Co–Ni superalloy for 3D printing
title_short A defect-resistant Co–Ni superalloy for 3D printing
title_full A defect-resistant Co–Ni superalloy for 3D printing
title_fullStr A defect-resistant Co–Ni superalloy for 3D printing
title_full_unstemmed A defect-resistant Co–Ni superalloy for 3D printing
title_sort defect-resistant co–ni superalloy for 3d printing
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2020-10-01
description Additive manufacturing promises a major transformation of the production of high economic value metallic materials. Here, the authors describe a new class of 3D printable superalloys that are amenable to crack-free 3D printing via electron beam melting as well as selective laser melting.
url https://doi.org/10.1038/s41467-020-18775-0
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