DC resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components

Additive manufacturing can offer new methods to shape materials that are difficult or too brittle in nature to process traditionally. In this work the optimization of a linseed oil and ICP solvent based solution with 90 wt% solid loading of the high temperature superconducting material yttrium bariu...

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Main Authors: Arthur Coveney, Kelly Morrison, Daniel Engstrom
Format: Default Article
Published: 2023
Subjects:
Civil engineering
Materials engineering
Mechanical engineering
Additive manufacturing
DC transport
Direct ink writing
High temperature superconductivity
Yttrium barium copper oxide
Online Access:https://hdl.handle.net/2134/24807717.v1
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author Arthur Coveney
Kelly Morrison
Daniel Engstrom
author_facet Arthur Coveney
Kelly Morrison
Daniel Engstrom
author_sort Arthur Coveney (10718256)
collection Figshare
description Additive manufacturing can offer new methods to shape materials that are difficult or too brittle in nature to process traditionally. In this work the optimization of a linseed oil and ICP solvent based solution with 90 wt% solid loading of the high temperature superconducting material yttrium barium copper oxide (YBCO) for additive manufacturing is demonstrated. The post sintered, printed components are analysed using a combination of X‐ray diffraction, scanning electron microscopy (SEM), magnetometry, and DC transport measurements. It is shown for the first time, for multilayer additively manufactured YBCO, direct DC transport measurements that indicate a current carrying percolative path with an upper transition temperature of 86.5 K.
format Default
Article
id rr-article-24807717
institution Loughborough University
publishDate 2023
record_format Figshare
spelling rr-article-248077172023-12-05T00:00:00Z DC resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components Arthur Coveney (10718256) Kelly Morrison (1225077) Daniel Engstrom (1253022) Civil engineering Materials engineering Mechanical engineering Additive manufacturing DC transport Direct ink writing High temperature superconductivity Yttrium barium copper oxide Additive manufacturing can offer new methods to shape materials that are difficult or too brittle in nature to process traditionally. In this work the optimization of a linseed oil and ICP solvent based solution with 90 wt% solid loading of the high temperature superconducting material yttrium barium copper oxide (YBCO) for additive manufacturing is demonstrated. The post sintered, printed components are analysed using a combination of X‐ray diffraction, scanning electron microscopy (SEM), magnetometry, and DC transport measurements. It is shown for the first time, for multilayer additively manufactured YBCO, direct DC transport measurements that indicate a current carrying percolative path with an upper transition temperature of 86.5 K.<p></p> 2023-12-05T00:00:00Z Text Journal contribution 2134/24807717.v1 https://figshare.com/articles/journal_contribution/DC_resistance_measurements_in_multi_layer_additively_manufactured_yttrium_barium_copper_oxide_components/24807717 CC BY 4.0
spellingShingle Civil engineering
Materials engineering
Mechanical engineering
Additive manufacturing
DC transport
Direct ink writing
High temperature superconductivity
Yttrium barium copper oxide
Arthur Coveney
Kelly Morrison
Daniel Engstrom
DC resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components
title DC resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components
title_full DC resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components
title_fullStr DC resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components
title_full_unstemmed DC resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components
title_short DC resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components
title_sort dc resistance measurements in multi‐layer additively manufactured yttrium barium copper oxide components
topic Civil engineering
Materials engineering
Mechanical engineering
Additive manufacturing
DC transport
Direct ink writing
High temperature superconductivity
Yttrium barium copper oxide
url https://hdl.handle.net/2134/24807717.v1

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