Design of new high-performance aluminium casting alloys
Publikationen: Thesis / Studienabschlussarbeiten und Habilitationsschriften › Dissertation
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2006. 156 S.
Publikationen: Thesis / Studienabschlussarbeiten und Habilitationsschriften › Dissertation
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TY - BOOK
T1 - Design of new high-performance aluminium casting alloys
AU - Franke, Annegret Simone
N1 - embargoed until null
PY - 2006
Y1 - 2006
N2 - The focus of this thesis is in the design of high-performance aluminium casting alloys. The first section examines the design of new heat-resistant alloys for automotive cylinder head applications. The alloys were developed based on the AlMg3Si1 alloy system by the addition transition metals (Cr, Mn, Cu, Sc and Zr). In particular Sc and Zr result in outstanding mechanical properties at elevated temperatures up to 300°C when compared with AlMg3Si1 base alloy and AlSi7Mg0.3 standard cylinder head alloy. It was verified that the thermal stability of the AlMg3Si1+Sc,Zr alloy is based on coherent Al3(Sc,Zr) precipitates. The second part of this thesis examines the design of high-strength casting alloys for structural aerospace applications. This work was based on wrought alloys of the 2xxx (AlCuMg) and 7xxx (AlZnMgCu) series but involved the modification of the alloy composition. Generally, the feasibility to design high-strength casting alloys based on wrought alloys has been demonstrated. Overall, it was shown in the results that the AlZn8Mg8CuNiSi alloy is a more promising candidate than the AlCu4Mg4Mn alloy in terms of castability and hardness. However, it does not reach the excellent hot tear resistance and shrinkage sensitivity of the standard AlSi7Mg0.6 aerospace alloy. Therefore, further optimisation is required. In addition, also the potential of ultrasonic vibration and the optimisation of castings by bionic design have been evaluated.
AB - The focus of this thesis is in the design of high-performance aluminium casting alloys. The first section examines the design of new heat-resistant alloys for automotive cylinder head applications. The alloys were developed based on the AlMg3Si1 alloy system by the addition transition metals (Cr, Mn, Cu, Sc and Zr). In particular Sc and Zr result in outstanding mechanical properties at elevated temperatures up to 300°C when compared with AlMg3Si1 base alloy and AlSi7Mg0.3 standard cylinder head alloy. It was verified that the thermal stability of the AlMg3Si1+Sc,Zr alloy is based on coherent Al3(Sc,Zr) precipitates. The second part of this thesis examines the design of high-strength casting alloys for structural aerospace applications. This work was based on wrought alloys of the 2xxx (AlCuMg) and 7xxx (AlZnMgCu) series but involved the modification of the alloy composition. Generally, the feasibility to design high-strength casting alloys based on wrought alloys has been demonstrated. Overall, it was shown in the results that the AlZn8Mg8CuNiSi alloy is a more promising candidate than the AlCu4Mg4Mn alloy in terms of castability and hardness. However, it does not reach the excellent hot tear resistance and shrinkage sensitivity of the standard AlSi7Mg0.6 aerospace alloy. Therefore, further optimisation is required. In addition, also the potential of ultrasonic vibration and the optimisation of castings by bionic design have been evaluated.
KW - Aluminium Casting Alloy
KW - heat-resistant Alloy
KW - high-strength Microstructure Properties
KW - mechanical Properties
KW - thermomechanical Aging Castability Grain refinement Bionic
KW - Aluminiumgusslegierung
KW - warmfest Aluminiumgusslegierung
KW - hochfest Mikrostruktur Eigenschaften
KW - mechanische Eigenschaften
KW - thermomechanische Alterung Gießeigenschaften Kornfeinung Bionik
M3 - Doctoral Thesis
ER -