Comparison of the Powder Bed Fused Materials From Different Powder Manufacturers

Koukolíková, Martina; Podaný, Pavel; Mertová, Kateřina

doi:10.17973/mmsj.2019_03_2018116

MM SJ

2019

DOI: 10.17973/mmsj.2019_03_2018116

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Comparison of the Powder Bed Fused Materials From Different Powder Manufacturers

Martina Koukolíková¹,

Pavel Podaný²,

Kateřina Mertová³

Abstract: Additive manufacturing (AM) has enabled not only designers over the last few years to boost a huge boom in the design and optimization of machine components. Part of the additive manufacturing is not only the design of the component itself, but the individual steps involved in the creation of computer documentation necessary for the preparation of the AM, the selection of suitable material and the printing itself with possible subsequent heat treatment. Process parameters, including the choice of powder, have … Show more

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Formation of Intermetallics Layers in Ni-Ti System Prepared by Direct Energy Deposition

Salvetr¹,

Vavřík²,

Školáková³

et al. 2019

Manufacturing Technology

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The Ni-Ti alloys with approximately equiatomic chemical composition are one of the most important materials from the shape memory alloys. Excellent properties such as shape memory effect and superelasticity are based on the phase transformation between austenite and martensite structure of the NiTi phase. In the past the investigation of the preparation methods was focused on melting metallurgyvacuum induction melting and arc re-melting and powder metallurgy routes like self-propagating high-temperature synthesis, hot isostatic pressing and spark plasma sintering. In the last several years importance of the additive manufacturing has increased significantly. This paper deals with formation of the Ni-Ti intermetallic phases between the nickel and titanium layers deposited on each other by direct energy deposition energy method. The varied mixture of the Ti2Ni, NiTi and Ni3Ti phases was formed in agreement with the binary Ni-Ti phase diagram. Some problems like cracking and nickel loss have to be solved by preheating of platform or adjustment of laser parameters.

show abstract

Formation of Intermetallics Layers in Ni-Ti System Prepared by Direct Energy Deposition

Salvetr¹,

Vavřík²,

Školáková³

et al. 2019

Manufacturing Technology

View full text Add to dashboard Cite

show abstract

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Comparison of the Powder Bed Fused Materials From Different Powder Manufacturers

Cited by 1 publication

References 4 publications

Formation of Intermetallics Layers in Ni-Ti System Prepared by Direct Energy Deposition

Formation of Intermetallics Layers in Ni-Ti System Prepared by Direct Energy Deposition

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