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Proceedings of ABM Annual Congress

ISSN 2594-5327

76th ABM Annual Congress - International Vol. 76, Num. 76 (2023)

Title

STUDY OF THE MOLTEN POOL SIZE OF A NB-48TI ALLOY PRODUCED BY LASER POWDER BED FUSION ADDITIVE MANUFACTURING

STUDY OF THE MOLTEN POOL SIZE OF A NB-48TI ALLOY PRODUCED BY LASER POWDER BED FUSION ADDITIVE MANUFACTURING

Authorship

WILLY ANK MORAIS; HERNÁNDEZ, JHOAN SEBASTIAN GUZMÁN; MACHADO, IZABEL FERNANDA; LANDGRAF, FERNANDO JOSÉ GOMES

Willy Ank de Morais
WILLY ANK MORAIS

61 Articles, 43810 downloads

Jhoan Sebastian Guzmán Hernández
HERNÁNDEZ, JHOAN SEBASTIAN GUZMÁN

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Izabel Fernanda Machado
MACHADO, IZABEL FERNANDA

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Fernando José Gomes Landgraf
LANDGRAF, FERNANDO JOSÉ GOMES

I am this author

DOI

10.5151/2594-5327-40354

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Abstract

The new developments in the additive manufacturing (AM) process offer great potential to generate novel applications and to induce technological innovations with engineering materials. In this field, there are still many challenges to understand, configure and control this new production process, which, however, has great potential for use in several areas, such as biomedical applications. In the present work, metallographic and surface characterization results obtained previously were analyzed in order to describe the size of the molten pool under solidification as well as to generate a new parameter to describe the LPBF process. As a result, sensitivity of the proposed parameter was detected with the melting modes of the process.

 

The new developments in the additive manufacturing (AM) process offer great potential to generate novel applications and to induce technological innovations with engineering materials. In this field, there are still many challenges to understand, configure and control this new production process, which, however, has great potential for use in several areas, such as biomedical applications. In the present work, metallographic and surface characterization results obtained previously were analyzed in order to describe the size of the molten pool under solidification as well as to generate a new parameter to describe the LPBF process. As a result, sensitivity of the proposed parameter was detected with the melting modes of the process.

Keywords

Laser powder bed fusion; Niobium; Molten pool

Laser powder bed fusion; Niobium; Molten pool

How to cite

Willy Ank MORAIS; Hernández, Jhoan Sebastian Guzmán; Machado, Izabel Fernanda; Landgraf, Fernando José Gomes. STUDY OF THE MOLTEN POOL SIZE OF A NB-48TI ALLOY PRODUCED BY LASER POWDER BED FUSION ADDITIVE MANUFACTURING, p. 2493-2504. In: 76th ABM Annual Congress - International, São Paulo, 2023.
ISSN: 2594-5327, DOI 10.5151/2594-5327-40354