Influence of microalloying elements on the precipitation behavior of Al-Mg-Si alloys
Publikationen: Thesis / Studienabschlussarbeiten und Habilitationsschriften › Diplomarbeit › (peer-reviewed)
Standard
2012. 90 S.
Publikationen: Thesis / Studienabschlussarbeiten und Habilitationsschriften › Diplomarbeit › (peer-reviewed)
Harvard
APA
Vancouver
Author
Bibtex - Download
}
RIS (suitable for import to EndNote) - Download
TY - THES
T1 - Influence of microalloying elements on the precipitation behavior of Al-Mg-Si alloys
AU - Werinos, Marion
N1 - embargoed until 26-06-2017
PY - 2012
Y1 - 2012
N2 - This work deals with a phenomenon called the negative effect of natural pre-aging on artificial aging, shown by many industrial important Al-Mg-Si alloys. An extensive literature research including the precipitation sequence in Al-Mg-Si alloys, fundamentals of vacancy assisted diffusion and theories treating the negative effect, served as a basis for the interpretation of experimental results. The approach of the work is based on a theory regarding interactions between the main alloying elements Si and Mg with quenched-in vacancies as the main reason for the negative effect of natural pre-aging on artificial aging. In the experimental part selected microalloying elements (Li, Ca, Sr, Ba, Ag, Cd, In, Ge, Sn, Sb, Pb and Bi) were added to the industrial important alloy AA6061. Some of these microalloying elements are believed to interact with vacancies in the aluminum matrix and are able to prohibit the negative effect of natural pre-aging on artificial aging. Using calculations from literature-based data of element-vacancy interactions in pure aluminum facilitated not only to verify the aforementioned theory, but also to interpret the effect which some tested microalloying elements exhibited on the overall precipitation kinetics of AA6061.
AB - This work deals with a phenomenon called the negative effect of natural pre-aging on artificial aging, shown by many industrial important Al-Mg-Si alloys. An extensive literature research including the precipitation sequence in Al-Mg-Si alloys, fundamentals of vacancy assisted diffusion and theories treating the negative effect, served as a basis for the interpretation of experimental results. The approach of the work is based on a theory regarding interactions between the main alloying elements Si and Mg with quenched-in vacancies as the main reason for the negative effect of natural pre-aging on artificial aging. In the experimental part selected microalloying elements (Li, Ca, Sr, Ba, Ag, Cd, In, Ge, Sn, Sb, Pb and Bi) were added to the industrial important alloy AA6061. Some of these microalloying elements are believed to interact with vacancies in the aluminum matrix and are able to prohibit the negative effect of natural pre-aging on artificial aging. Using calculations from literature-based data of element-vacancy interactions in pure aluminum facilitated not only to verify the aforementioned theory, but also to interpret the effect which some tested microalloying elements exhibited on the overall precipitation kinetics of AA6061.
KW - Aluminium Legierungen
KW - Al-Mg-Si Legierungen
KW - AA6061
KW - Negativer Kaltauslagerungseffekt
KW - Warmauslagerung
KW - Ausscheidungskinetik
KW - Leerstellen
KW - Diffusion
KW - Mikrolegierungselemente
KW - Element-Leerstellen Wechselwirkung
KW - Härte
KW - Atomsonden-Tomographie
KW - aluminum alloys
KW - Al-Mg-Si alloys
KW - AA6061
KW - negative effect of natural pre-aging
KW - artificial aging
KW - precipitation kinetics
KW - vacancies
KW - diffusion
KW - microalloying elements
KW - solute-vacancy interactions
KW - hardness
KW - atom probe tomography
M3 - Diploma Thesis
ER -