Honoré Kamguo Kamga scite author profile

Honoré Kamguo Kamga

2Publications

45Citation Statements Received

11Citation Statements Given

How they've been cited

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Affiliations

Université du Québec à Chicoutimi, Université Laval, Université du Québec

Publications

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Mechanical properties of aluminium–copper B206 alloys with iron and silicon additions

Kamga

Larouche

Bournane

et al. 2012

International Journal of Cast Metals Research

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Mechanical properties of B206 aluminium alloys with additions of iron and silicon were studied to investigate the combined effect of these additions on tensile strengths and ductility. Properties are highly influenced by the iron to silicon ratio and the nominal concentration of the single elements. The best properties were obtained with both a ratio close to one and low concentrations of iron and silicon. Present experimental results show that it is possible to multiply by two or three the present limit of 0?1 wt-%Fe in these alloys at natural aging (T4) and still obtain the minimum of 7% elongation required by the automotive industry. At artificial aging (T7), it will be very difficult however to reach the 7% elongation with y0?2 wt-%Fe and 0?2 wt-%Si, while this seems impossible with y0?3 wt-%Fe and 0?3 wt-%Si. It was found that macrosegregation of Cu in the gage section of the ASTM B108 test bars is responsible for an enrichment of 0?8-0?9 wt-% of this element in the test zone. This has produced microstructures saturated in Cu with little Al 2 Cu phase remaining after the solution heat treatment. Owing to the low amount of this phase and the round shape of the particles, the remaining Al 2 Cu phase did not have a significant impact on the ductility. One benefit of working with a Cu saturated microstructure is that one can estimate the true temperature of the solution heat treatment by conducting a post-analysis of Cu content in the dendrites. This should be helpful to reduce the variability in properties and to improve the temperature distribution in heat treating furnaces.

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Solidification of Aluminum-Copper B206 Alloys with Iron and Silicon Additions

Kamga

Larouche

Bournane

et al. 2010

Metall Mater Trans A

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Solidification of B206 aluminum alloys with additions of iron and silicon was studied to investigate their combined effect on the formation and precipitation of intermetallics, particularly Fe-rich phases. Iron is precipitated mainly by either (CuFe) or (MnFe) phases, or both depending of the iron and silicon content, as well as the cooling rate. It was found that in alloys having up to 0.3wt% Fe, the precipitation of (CuFe) phase can be largely suppressed if the ratio Si/Fe is close to 1 and the cooling rate is moderately high. The low mobility of the large facets of the (CuFe) platelets is likely the cause limiting the amount of this phase, especially when the iron atoms have the possibility to be captured by another phase, in this case, the (MnFe) phase.

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