Modeling the concurrent growth of inter- and intragranular Si precipitates during slow cooling of the alloy AA6016

Georg Falkinger; Robert Kahlenberg; Moritz Theissing; Stefan Mitsche; Angela Thum; Stefan Pogatscher

doi:10.1080/26889277.2024.2316914

Modeling the concurrent growth of inter- and intragranular Si precipitates during slow cooling of the alloy AA6016

Georg Falkinger, Robert Kahlenberg, Moritz Theissing, Stefan Mitsche, Angela Thum, Stefan Pogatscher

Lehrstuhl für Nichteisenmetallurgie (520)

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Begutachtung

Abstract

This work combines two established models for precipitate growth in the bulk and at the grain boundary to investigate the growth of pure Si precipitates in the alloy AA6016 during slow cooling after hot rolling. Despite the simplicity of the approach, the predicted phase fractions and the predicted width of the precipitate-free zone are in agreement with the measured values. The model predictions suggest that raising the Si content and increasing the density of primary Fe-based particles reduces the fraction of grain boundary precipitates. The model correctly reproduces the technologically important effect of the cooling rate on intra- and intergranular growth. The model predictions can be used to optimize hot rolling schedules and the alloy design.

Originalsprache	Englisch
Aufsatznummer	2316914
Seitenumfang	23
Fachzeitschrift	European journal of materials
Jahrgang	4.2024
Ausgabenummer	1
DOIs	https://doi.org/10.1080/26889277.2024.2316914
Publikationsstatus	Veröffentlicht - 22 Feb. 2024

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© 2024 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

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abstract = "This work combines two established models for precipitate growth in the bulk and at the grain boundary to investigate the growth of pure Si precipitates in the alloy AA6016 during slow cooling after hot rolling. Despite the simplicity of the approach, the predicted phase fractions and the predicted width of the precipitate-free zone are in agreement with the measured values. The model predictions suggest that raising the Si content and increasing the density of primary Fe-based particles reduces the fraction of grain boundary precipitates. The model correctly reproduces the technologically important effect of the cooling rate on intra- and intergranular growth. The model predictions can be used to optimize hot rolling schedules and the alloy design.",

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AU - Falkinger, Georg

AU - Kahlenberg, Robert

AU - Theissing, Moritz

AU - Mitsche, Stefan

AU - Thum, Angela

AU - Pogatscher, Stefan

PY - 2024/2/22

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AB - This work combines two established models for precipitate growth in the bulk and at the grain boundary to investigate the growth of pure Si precipitates in the alloy AA6016 during slow cooling after hot rolling. Despite the simplicity of the approach, the predicted phase fractions and the predicted width of the precipitate-free zone are in agreement with the measured values. The model predictions suggest that raising the Si content and increasing the density of primary Fe-based particles reduces the fraction of grain boundary precipitates. The model correctly reproduces the technologically important effect of the cooling rate on intra- and intergranular growth. The model predictions can be used to optimize hot rolling schedules and the alloy design.

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