Abstract:The oxide evolution during the solidification of 316L stainless steel from additive manufacturing powders with different oxygen contents is studied by in situ observation of the melting and solidification of the powder materials, advanced characterization of the solidified materials, and non-equilibrium thermodynamic analysis. An oxide evolution map is established for the 316L powders with different oxygen contents. It reveals the relationship between the surface oxidation in the reused powder and its expected… Show more
“…8 c) showed an enrichment in silicon, molybdenum, manganese, and oxygen. The presence of this type of silicate precipitates within the powder has already been reported in several studies in the case of laser powder bed fusion process (Ref 31 , 32 ). Fig.…”
Industries developing cold spray aim at dense and resistant coatings for component repair. However, as-sprayed 316L coatings display non-equilibrium microstructure and brittle fracture behavior. Improving their mechanical properties requires controlling their microstructure; post-spraying heat treatment is a promising approach. The recovery and recrystallization of coatings were little studied, and heat treatments reported in literature mostly used holding for long time in furnaces, not adapted to on-site repairs. This study aimed at gaining insights into recovery and recrystallization mechanisms of 316L coatings, for a broader range of heat treatment kinetics. A study of powders and as-sprayed coatings was conducted to characterize the initial state.
In situ
XRD measurements provided input for heat treatment definition. Microscopy, room temperature XRD and hardness measurements allowed to better understand the microstructural evolutions and to select treatments leading to original microstructures. In this work, a variety of microstructures were produced by adapting heat treatment conditions for a given set of spraying parameters. The recrystallization path of the heterogeneous skin-core microstructure of deposited particles, as well as the interaction between grain growth and precipitation was revealed. A novel, optimized fast heat treatment led to a fully recrystallized, fine-grained coating and significantly reduced hardness.
“…8 c) showed an enrichment in silicon, molybdenum, manganese, and oxygen. The presence of this type of silicate precipitates within the powder has already been reported in several studies in the case of laser powder bed fusion process (Ref 31 , 32 ). Fig.…”
Industries developing cold spray aim at dense and resistant coatings for component repair. However, as-sprayed 316L coatings display non-equilibrium microstructure and brittle fracture behavior. Improving their mechanical properties requires controlling their microstructure; post-spraying heat treatment is a promising approach. The recovery and recrystallization of coatings were little studied, and heat treatments reported in literature mostly used holding for long time in furnaces, not adapted to on-site repairs. This study aimed at gaining insights into recovery and recrystallization mechanisms of 316L coatings, for a broader range of heat treatment kinetics. A study of powders and as-sprayed coatings was conducted to characterize the initial state.
In situ
XRD measurements provided input for heat treatment definition. Microscopy, room temperature XRD and hardness measurements allowed to better understand the microstructural evolutions and to select treatments leading to original microstructures. In this work, a variety of microstructures were produced by adapting heat treatment conditions for a given set of spraying parameters. The recrystallization path of the heterogeneous skin-core microstructure of deposited particles, as well as the interaction between grain growth and precipitation was revealed. A novel, optimized fast heat treatment led to a fully recrystallized, fine-grained coating and significantly reduced hardness.
“…Moreover, the size of the manufactured samples (8 mm diameter for netshape series versus 20 mm for machined series) seems not to affect the porosity. When it comes to the effect of the heat treatment on porosity, considering both methods and their associated errors bars, no effect of this post-operational step is observed as already reported for such moderate temperature heat-treatments in literature [19,47,48]. As already reported in literature, both average value and statistical distribution of the powder particles can affect the surface roughness [27,32].…”
Section: Porosity Density and Surface Roughness Analysessupporting
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“…AYDOGAN, (2022) Outro método bastante utilizado para simulações computacionais em WAAM é método de phase-field. O método de phase-field é utilizado para modelagem de transformação de fase e evolução microestrutural em sólidos (ZHU et al, 2002) pós de aço inoxidáveis 316L utilizado em AM (YANG et al, 2014). Pelo uso do MICRESS®, OKUGAWA et al (2022), ao estudar o refino de grão da liga hipoeutética alumínio-silício, viram que partículas cristalinas de Si permanecem próximas à linha de fusão mesmo após o rápido processo de refusão, servindo como sítios de nucleação heterogêneos no processo de resolidificação (OKUGAWA et al…”
Section: Soluções Computacionais Utilizadas Em Mamunclassified
A manufatura aditiva metálica (MAM) é uma técnica de fabricação camada por camada de uma peça a partir de um modelo CAD. Os processos de MAM são bastante complexos por serem multifísicos. O uso de modelagens e simulações computacionais mostram-se como ferramentas interessantes para entendimento do processo. Em MAM são utilizados softwares computacionais baseados em modelos matemáticos para simulações térmicas, mecânicas e metalúrgicas. No presente trabalho, descrevemos os métodos e soluções computacionais mais utilizadas em MAM
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