MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSION

MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSION

Laser powder bed fusion of bulk metallic glasses offers great potential to overcome the existing restrictions of the geometrical size and complexity of bulk metallic glasses in conventional manufacturing routes due to high cooling rates during laser powder bed fusion. Bulk metallic glasses exhibit e...

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Main Authors: Wegner, J., Frey, M., Stiglmair, P., Kleszczynski, S., Witt, G., Busch, R.
Format: Article
Language:English
Published: Stellenbosch University 2019-11-01
Series:South African Journal of Industrial Engineering
Subjects:
zr-based bulk metallic glasses
honeycomb structures
laser powder bed fusion
mechanical properties
Online Access:http://sajie.journals.ac.za/pub/article/view/2265
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spelling doaj-be075d77f7494f9cb32a1322a405cccf2020-11-25T01:44:45ZengStellenbosch UniversitySouth African Journal of Industrial Engineering1012-277X2224-78902019-11-01303324010.7166/30-3-2265MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSIONWegner, J. 0Frey, M. 1Stiglmair, P. 2Kleszczynski, S. 3Witt, G. 4Busch, R. 5University Duisburg-EssenSaarland UniversitySaarland UniversityUniversity Duisburg-EssenUniversity Duisburg-EssenSaarland UniversityLaser powder bed fusion of bulk metallic glasses offers great potential to overcome the existing restrictions of the geometrical size and complexity of bulk metallic glasses in conventional manufacturing routes due to high cooling rates during laser powder bed fusion. Bulk metallic glasses exhibit extraordinary strength, paired with high elasticity. Yet insights into additive manufactured bulk metallic glasses, especially of complex structures, are limited. The present article investigates the mechanical behaviour of Zr-based bulk metallic glasses, fabricated into honeycomb structures through laser powder bed fusion, by performing three-point bending tests. The results reveal a significant increase in specific strength, quasi-plasticity, and high elastic elongation. These structures thus offer great potential for light-weight applications and compliant mechanisms.http://sajie.journals.ac.za/pub/article/view/2265zr-based bulk metallic glasseshoneycomb structureslaser powder bed fusionmechanical properties
collection DOAJ
language English
format Article
sources DOAJ
author Wegner, J.
Frey, M.
Stiglmair, P.
Kleszczynski, S.
Witt, G.
Busch, R.
spellingShingle Wegner, J.
Frey, M.
Stiglmair, P.
Kleszczynski, S.
Witt, G.
Busch, R.
MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSION
South African Journal of Industrial Engineering
zr-based bulk metallic glasses
honeycomb structures
laser powder bed fusion
mechanical properties
author_facet Wegner, J.
Frey, M.
Stiglmair, P.
Kleszczynski, S.
Witt, G.
Busch, R.
author_sort Wegner, J.
title MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSION
title_short MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSION
title_full MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSION
title_fullStr MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSION
title_full_unstemmed MECHANICAL PROPERTIES OF HONEYCOMB STRUCTURED ZR-BASED BULK METALLIC GLASS SPECIMENS FABRICATED BY LASER POWDER BED FUSION
title_sort mechanical properties of honeycomb structured zr-based bulk metallic glass specimens fabricated by laser powder bed fusion
publisher Stellenbosch University
series South African Journal of Industrial Engineering
issn 1012-277X
2224-7890
publishDate 2019-11-01
description Laser powder bed fusion of bulk metallic glasses offers great potential to overcome the existing restrictions of the geometrical size and complexity of bulk metallic glasses in conventional manufacturing routes due to high cooling rates during laser powder bed fusion. Bulk metallic glasses exhibit extraordinary strength, paired with high elasticity. Yet insights into additive manufactured bulk metallic glasses, especially of complex structures, are limited. The present article investigates the mechanical behaviour of Zr-based bulk metallic glasses, fabricated into honeycomb structures through laser powder bed fusion, by performing three-point bending tests. The results reveal a significant increase in specific strength, quasi-plasticity, and high elastic elongation. These structures thus offer great potential for light-weight applications and compliant mechanisms.
topic zr-based bulk metallic glasses
honeycomb structures
laser powder bed fusion
mechanical properties
url http://sajie.journals.ac.za/pub/article/view/2265
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