Rheological analysis of cemented carbides and Tungsten powders for additive manufacture via laser powder bed fusion technique

Autores/as

  • Fábio Miranda Escola Politécnica USP & BRATS Indústria e Com. de Produtos Metálicos Especiais Ltda, Brazil
  • Rodrigo Condotta Centro Universitário FEI, Brazil
  • Nathalia Marina Gonçalves Pereira Centro Universitário FEI, Brasil
  • Marcelo Otávio dos Santos Escola Politécnica USP & Instituo Mauá de Tecnologia, Brazil https://orcid.org/0000-0002-2357-6593
  • Daniel Rodrigues BRATS Indústria e Comércio de Produtos Metálicos Especiais Ltda, Brazil
  • Suzilene Real Janasi BRATS Indústria e Comércio de Produtos Metálicos Especiais Ltda, Brazil https://orcid.org/0000-0001-7984-5994
  • Fernando dos Santos Ortega Univ. do Vale do Paraíba & BRATS Ind. e Com. de Produtos Metálicos Especiais Ltda, Brazil
  • Gilmar Ferreira Batalha Escola Politécnica USP & BRATS, Brazil

DOI:

https://doi.org/10.18540/jcecvl10iss9pp20994

Palabras clave:

Rheological behavior of powder composites. Flowability of heavy alloys. Properties and applications of powder bed fusion. Behavior of cermets in additive manufacturing.

Resumen

In Additive Manufacturing (AM) using the Laser Powder Bed Fusion (L-PBF) technique, spherical powders are the most commonly preferred for direct sintering. However, composites such as cemented carbides and heavy alloys often exhibit irregular shapes. Due to the requirement for extremely fine grain size, the cohesive behavior of the particle bed becomes significant, influencing its compressibility and porosity. These physical properties result in powders with coarse textures, which lead to low fluidity and interruptions in material flow within the ducts. This study evaluates the flowability of WC and W refractory materials combined with Co and Ni. Key interparticle properties, including real and bulk density, bulk compressibility and porosity, and granular shear, were analyzed to understand their influence on the deposition layer behavior in the powder bed. These parameters are crucial for understanding the micro-behavior of granular materials and correlating it with their macro-behavior. The rheological aspects of these composite powders are discussed, aiming to establish correlations between the manufacturing process and the resulting properties of their mixtures.

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Biografía del autor/a

Marcelo Otávio dos Santos, Escola Politécnica USP & Instituo Mauá de Tecnologia, Brazil

 

 

Suzilene Real Janasi, BRATS Indústria e Comércio de Produtos Metálicos Especiais Ltda, Brazil

 

 

Fernando dos Santos Ortega, Univ. do Vale do Paraíba & BRATS Ind. e Com. de Produtos Metálicos Especiais Ltda, Brazil

 

 

Citas

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Publicado

2024-12-15

Cómo citar

Miranda, F., Condotta, R., Pereira, N. M. G., Santos, M. O. dos, Rodrigues, D., Janasi, S. R., Ortega, F. dos S., & Batalha, G. F. (2024). Rheological analysis of cemented carbides and Tungsten powders for additive manufacture via laser powder bed fusion technique. The Journal of Engineering and Exact Sciences, 10(9), 20994. https://doi.org/10.18540/jcecvl10iss9pp20994

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