Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloy

Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloy

Direct metal laser sintering (DMLS) is an additive manufacturing technology used to melt metal powder by high laser power to produce customised parts, light-weight structures, or other complex objects. During DMLS, powder is melted and solidified track-by-track and layer-by-layer; thus, building dir...

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Main Authors: Moletsane, M. G., Krakhmalev, Pavel, Kazantseva, N., Du Plessis, Anton, Yadroitsava, I., Yadroitsev, I.
Format: Article
Language:English
Published: Stellenbosch University 2016-11-01
Series:South African Journal of Industrial Engineering
Subjects:
direct metal laser sintering
microstructure
Online Access:http://sajie.journals.ac.za/pub/article/view/1667
id doaj-3e481525fed049019ff75dada60f8a12
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spelling doaj-3e481525fed049019ff75dada60f8a122020-11-24T23:10:02ZengStellenbosch UniversitySouth African Journal of Industrial Engineering1012-277X2224-78902016-11-0127311012110.7166/27-3-1667Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloyMoletsane, M. G.0Krakhmalev, Pavel1Kazantseva, N.2Du Plessis, Anton3Yadroitsava, I.4Yadroitsev, I.5Central University of TechnologyKarlstad UniversityAcademy of Sciences, EkaterinburgStellenbosch UniversityCentral University of TechnologyCentral University of TechnologyDirect metal laser sintering (DMLS) is an additive manufacturing technology used to melt metal powder by high laser power to produce customised parts, light-weight structures, or other complex objects. During DMLS, powder is melted and solidified track-by-track and layer-by-layer; thus, building direction can influence the mechanical properties of DMLS parts. The mechanical properties and microstructure of material produced by DMLS can depend on the powder properties, process parameters, scanning strategy, and building geometry. In this study, the microstructure, tensile properties, and porosity of DMLS Ti6Al4V (ELI) horizontal samples were analysed. Defect analysis by CT scans in pre-strained samples was used to detect the crack formation mechanism during tensile testing of as-built and heat-treated samples. The mechanical properties of the samples before and after stress relieving are discussed. http://sajie.journals.ac.za/pub/article/view/1667direct metal laser sinteringmicrostructure
collection DOAJ
language English
format Article
sources DOAJ
author Moletsane, M. G.
Krakhmalev, Pavel
Kazantseva, N.
Du Plessis, Anton
Yadroitsava, I.
Yadroitsev, I.
spellingShingle Moletsane, M. G.
Krakhmalev, Pavel
Kazantseva, N.
Du Plessis, Anton
Yadroitsava, I.
Yadroitsev, I.
Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloy
South African Journal of Industrial Engineering
direct metal laser sintering
microstructure
author_facet Moletsane, M. G.
Krakhmalev, Pavel
Kazantseva, N.
Du Plessis, Anton
Yadroitsava, I.
Yadroitsev, I.
author_sort Moletsane, M. G.
title Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloy
title_short Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloy
title_full Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloy
title_fullStr Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloy
title_full_unstemmed Tensile properties and microstructure of direct metal laser-sintered TI6AL4V (ELI) alloy
title_sort tensile properties and microstructure of direct metal laser-sintered ti6al4v (eli) alloy
publisher Stellenbosch University
series South African Journal of Industrial Engineering
issn 1012-277X
2224-7890
publishDate 2016-11-01
description Direct metal laser sintering (DMLS) is an additive manufacturing technology used to melt metal powder by high laser power to produce customised parts, light-weight structures, or other complex objects. During DMLS, powder is melted and solidified track-by-track and layer-by-layer; thus, building direction can influence the mechanical properties of DMLS parts. The mechanical properties and microstructure of material produced by DMLS can depend on the powder properties, process parameters, scanning strategy, and building geometry. In this study, the microstructure, tensile properties, and porosity of DMLS Ti6Al4V (ELI) horizontal samples were analysed. Defect analysis by CT scans in pre-strained samples was used to detect the crack formation mechanism during tensile testing of as-built and heat-treated samples. The mechanical properties of the samples before and after stress relieving are discussed.
topic direct metal laser sintering
microstructure
url http://sajie.journals.ac.za/pub/article/view/1667
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AT krakhmalevpavel tensilepropertiesandmicrostructureofdirectmetallasersinteredti6al4velialloy
AT kazantsevan tensilepropertiesandmicrostructureofdirectmetallasersinteredti6al4velialloy
AT duplessisanton tensilepropertiesandmicrostructureofdirectmetallasersinteredti6al4velialloy
AT yadroitsavai tensilepropertiesandmicrostructureofdirectmetallasersinteredti6al4velialloy
AT yadroitsevi tensilepropertiesandmicrostructureofdirectmetallasersinteredti6al4velialloy
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