Characterisation of mesosegregations in large steel ingots

Gutman, Lucie; Kennedy, J. R.; Roch, François; Clément, Arthur Marceaux Dit; Salsi, Lise; Cauzid, Jean; Rouat, Bernard; Combeau, Hervé; Založnik, Miha; Zollinger, Julien

doi:10.1088/1757-899x/1274/1/012049

Cited by 2 publications

(1 citation statement)

References 9 publications

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“…In this paper we analyzed the spatial distribution of segregation in a volume of 115 x 95 x 145 mm 3 based on a new sampling and characterisation methodology recently developed [14]. This new method, based on micro-X-Ray Fluorescence (µXRF), is promising for the chemical analysis of mesosegregation in steel ingots and enables the observation of channel segregates present within the sample volume.…”

Section: Introductionmentioning

confidence: 99%

Modelling of spatial distribution of segregations in large steel ingots by analysis of centimetric segregation maps

Gutman,

Kennedy,

Boukellal

et al. 2023

IOP Conf. Ser.: Mater. Sci. Eng.

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Mesosegregation appears during the solidification of low-alloyed steels at the scale of a few grains. It causes chemically segregated bands in forgings manufactured from steel ingots. As this may affect the mechanical properties of the produced parts, it is crucial to understand the formation of such segregation patterns. While both microsegregation and macrosegregation are well understood and can be readily characterized, little is known about the formation of mesosegregation. In this paper we present a data analysis method to identify the characteristic scales and patterns of mesosegregation. Segregation was mapped on centimetric samples, using micro X-Ray fluorescence (µXRF). The fine sampling grid used reveals segregation patterns at different scales. To identify and distinguish the mesoscale segregation patterns from smaller and larger present patterns, a numerical data analysis technique based on spatial filtering was used. It can identify characteristic scales of mesosegregation patterns on 2D serial cut samples, leading to 3D reconstruction. This approach combined with simulation studies, will ultimately pave the way to a comprehensive understanding of the formation of mesosegregation.

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Section: Introductionmentioning

confidence: 99%

Modelling of spatial distribution of segregations in large steel ingots by analysis of centimetric segregation maps

Gutman,

Kennedy,

Boukellal

et al. 2023

IOP Conf. Ser.: Mater. Sci. Eng.

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Modeling Microstructure Development upon Continuous Cooling of 42CrMo4 Steel Grade for Large-Size Components

Fernandez-Sanchez,

Iza-Mendia,

Jorge-Badiola

2024

Metals

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42CrMo4-type steel grades are widely used in a great variety of components that require ad hoc mechanical properties. However, due to the dimensions of large components and the previous thermomechanical treatments, the presence of heterogeneities in the chemical compositions are expected to impact those mechanical properties. In the present work, a detailed analysis of phase transformation behavior upon cooling was carried out through a dilatometry test on samples of 42CrMo4 belonging to a component that has a non-homogeneous chemical distribution. The analysis of the dilatation signals and the quantitative metallography shows a rather complex behavior depending on the cooling rate as well as on the region of observation. Two different phase transformation models based on Li’s approach were applied to the present composition to determine the CCT curve as well as the fraction of the microconstituents. An extensive discussion was carried out on some aspects about Kirkaldy-based approaches that need to be improved so as to attain more reliable quantitative results when modeling phase transformations in heterogenous systems.

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Characterisation of mesosegregations in large steel ingots

Cited by 2 publications

References 9 publications

Modelling of spatial distribution of segregations in large steel ingots by analysis of centimetric segregation maps

Modelling of spatial distribution of segregations in large steel ingots by analysis of centimetric segregation maps

Modeling Microstructure Development upon Continuous Cooling of 42CrMo4 Steel Grade for Large-Size Components

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