Primary Intermetallic Phases in Crossover Alloys with high content of Fe and Si

Research output: Contribution to conferencePosterResearch

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Primary Intermetallic Phases in Crossover Alloys with high content of Fe and Si. / Samberger, Sebastian.
2023. Poster session presented at TMS 2023 Annual Meeting & Exhibition, San Diego, California, United States.

Research output: Contribution to conferencePosterResearch

Harvard

Samberger, S 2023, 'Primary Intermetallic Phases in Crossover Alloys with high content of Fe and Si', TMS 2023 Annual Meeting & Exhibition, San Diego, United States, 19/03/21 - 23/03/22.

APA

Samberger, S. (2023). Primary Intermetallic Phases in Crossover Alloys with high content of Fe and Si. Poster session presented at TMS 2023 Annual Meeting & Exhibition, San Diego, California, United States.

Vancouver

Samberger S. Primary Intermetallic Phases in Crossover Alloys with high content of Fe and Si. 2023. Poster session presented at TMS 2023 Annual Meeting & Exhibition, San Diego, California, United States.

Author

Samberger, Sebastian. / Primary Intermetallic Phases in Crossover Alloys with high content of Fe and Si. Poster session presented at TMS 2023 Annual Meeting & Exhibition, San Diego, California, United States.

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@conference{c30bf19cf23f4fbc84dde3d85d502f6d,
title = "Primary Intermetallic Phases in Crossover Alloys with high content of Fe and Si",
abstract = "Conventional Aluminum designations differentiate between heat treatable and non-heat treatable alloys, depending on their main alloying element. By introducing the AlMgZn(Cu) crossover alloy concept a step forward has been taken by escaping the conventional alloying system. The 5/7-crossover alloy overcomes the long-standing trade-off between the excellent formability of 5xxx-series alloys and the high strength of 7xxx-series alloys. However, the respective tolerance intervals of the composition, in particular of the impurity elements must be closely examined for these new alloy classes.This study is investigating the primary intermetallic phases formed upon casting of AlMgZn(Cu) alloys with different content of impurity elements (Fe and Si). Microstructure analysis was done via electron microscopy. Different cooling methods were applied to evaluate the influence of cooling rate on the formation of the primary intermetallic phases. Results indicate a strong dependency of primary phases on the cooling rate as well as the Fe/Si ratio.",
author = "Sebastian Samberger",
year = "2023",
month = mar,
day = "20",
language = "English",
note = "TMS 2023 Annual Meeting & Exhibition ; Conference date: 19-03-2021 Through 23-03-2022",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - Primary Intermetallic Phases in Crossover Alloys with high content of Fe and Si

AU - Samberger, Sebastian

PY - 2023/3/20

Y1 - 2023/3/20

N2 - Conventional Aluminum designations differentiate between heat treatable and non-heat treatable alloys, depending on their main alloying element. By introducing the AlMgZn(Cu) crossover alloy concept a step forward has been taken by escaping the conventional alloying system. The 5/7-crossover alloy overcomes the long-standing trade-off between the excellent formability of 5xxx-series alloys and the high strength of 7xxx-series alloys. However, the respective tolerance intervals of the composition, in particular of the impurity elements must be closely examined for these new alloy classes.This study is investigating the primary intermetallic phases formed upon casting of AlMgZn(Cu) alloys with different content of impurity elements (Fe and Si). Microstructure analysis was done via electron microscopy. Different cooling methods were applied to evaluate the influence of cooling rate on the formation of the primary intermetallic phases. Results indicate a strong dependency of primary phases on the cooling rate as well as the Fe/Si ratio.

AB - Conventional Aluminum designations differentiate between heat treatable and non-heat treatable alloys, depending on their main alloying element. By introducing the AlMgZn(Cu) crossover alloy concept a step forward has been taken by escaping the conventional alloying system. The 5/7-crossover alloy overcomes the long-standing trade-off between the excellent formability of 5xxx-series alloys and the high strength of 7xxx-series alloys. However, the respective tolerance intervals of the composition, in particular of the impurity elements must be closely examined for these new alloy classes.This study is investigating the primary intermetallic phases formed upon casting of AlMgZn(Cu) alloys with different content of impurity elements (Fe and Si). Microstructure analysis was done via electron microscopy. Different cooling methods were applied to evaluate the influence of cooling rate on the formation of the primary intermetallic phases. Results indicate a strong dependency of primary phases on the cooling rate as well as the Fe/Si ratio.

M3 - Poster

T2 - TMS 2023 Annual Meeting & Exhibition

Y2 - 19 March 2021 through 23 March 2022

ER -