Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens
The various process-specific differences in techniques compared to traditional techniques can produce significantly different mechanical behaviour in additively manufactured (AM) parts compared to traditional bulk counterparts. Components produced by AM are built layer by layer via localised melting...
Main Authors: | , , , , , , |
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Format: | Article |
Language: | English |
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Taylor & Francis Group
2023-12-01
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Series: | Virtual and Physical Prototyping |
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Online Access: | http://dx.doi.org/10.1080/17452759.2022.2161400 |
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author | Jan Dzugan Mohsen Seifi Sylwia Rzepa Radek Prochazka Martin Rund Pavel Podany John J. Lewandowski |
author_facet | Jan Dzugan Mohsen Seifi Sylwia Rzepa Radek Prochazka Martin Rund Pavel Podany John J. Lewandowski |
author_sort | Jan Dzugan |
collection | DOAJ |
description | The various process-specific differences in techniques compared to traditional techniques can produce significantly different mechanical behaviour in additively manufactured (AM) parts compared to traditional bulk counterparts. Components produced by AM are built layer by layer via localised melting. Therefore, both location- and orientation-dependent properties can be expected. Since many AM parts take advantage of the design and topology freedom provided by AM, properties characterisation with the use of standard specimens is not always possible, requiring the use of small-sized specimen techniques. In the current paper, three AM-produced IN-718, Ti-6Al-4V and H13 parts using electron beam powder bed fusion and laser powder bed fusion are evaluated. Local mechanical properties have been assessed with the use of mini-tensile tests that were developed for cases where limited amounts of material are available. The results obtained demonstrate the ability to measure location- and orientation-dependent properties in AM components using such approaches and highlight that additional work by the AM community remains in order to determine the source(s) of such differences. |
first_indexed | 2024-03-11T23:02:57Z |
format | Article |
id | doaj.art-c070fcab89f144c59d33e8b85b6cfd92 |
institution | Directory Open Access Journal |
issn | 1745-2759 1745-2767 |
language | English |
last_indexed | 2024-03-11T23:02:57Z |
publishDate | 2023-12-01 |
publisher | Taylor & Francis Group |
record_format | Article |
series | Virtual and Physical Prototyping |
spelling | doaj.art-c070fcab89f144c59d33e8b85b6cfd922023-09-21T14:38:03ZengTaylor & Francis GroupVirtual and Physical Prototyping1745-27591745-27672023-12-0118110.1080/17452759.2022.21614002161400Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimensJan Dzugan0Mohsen Seifi1Sylwia Rzepa2Radek Prochazka3Martin Rund4Pavel Podany5John J. Lewandowski6COMTES FHT a.s.Case Western Reserve UniversityCOMTES FHT a.s.COMTES FHT a.s.COMTES FHT a.s.COMTES FHT a.s.Case Western Reserve UniversityThe various process-specific differences in techniques compared to traditional techniques can produce significantly different mechanical behaviour in additively manufactured (AM) parts compared to traditional bulk counterparts. Components produced by AM are built layer by layer via localised melting. Therefore, both location- and orientation-dependent properties can be expected. Since many AM parts take advantage of the design and topology freedom provided by AM, properties characterisation with the use of standard specimens is not always possible, requiring the use of small-sized specimen techniques. In the current paper, three AM-produced IN-718, Ti-6Al-4V and H13 parts using electron beam powder bed fusion and laser powder bed fusion are evaluated. Local mechanical properties have been assessed with the use of mini-tensile tests that were developed for cases where limited amounts of material are available. The results obtained demonstrate the ability to measure location- and orientation-dependent properties in AM components using such approaches and highlight that additional work by the AM community remains in order to determine the source(s) of such differences.http://dx.doi.org/10.1080/17452759.2022.2161400tensile testminiature specimensadditive manufacturinglocal mechanical properties |
spellingShingle | Jan Dzugan Mohsen Seifi Sylwia Rzepa Radek Prochazka Martin Rund Pavel Podany John J. Lewandowski Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens Virtual and Physical Prototyping tensile test miniature specimens additive manufacturing local mechanical properties |
title | Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens |
title_full | Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens |
title_fullStr | Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens |
title_full_unstemmed | Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens |
title_short | Mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens |
title_sort | mechanical properties characterisation of metallic components produced by additive manufacturing using miniaturised specimens |
topic | tensile test miniature specimens additive manufacturing local mechanical properties |
url | http://dx.doi.org/10.1080/17452759.2022.2161400 |
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