Anton Gorny scite author profile

The evolution of strontium (Sr) containing intermetallic phase in the eutectic reaction of Sr-modified Al-Si hypoeutectic alloy was studied with high energy synchrotron beam source for nano-diffraction experiments and x-ray fluorescence elemental mapping. Contrary to popular belief, Sr does not seem to interfere with the Twin Plane Re-entrant Edge (TPRE) growth mechanism of eutectic Si, but evolves as the Al2Si2Sr phase during the eutectic reaction at the boundary between the eutectic Si and Al grains.

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Precipitation- and stress-influenced coarsening in Mg-based Mg–Zn–Sn–Y and Mg–Zn–Sn–Sb alloys

Gorny

Katsman

2008

J. Mater. Res.

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Extensive experimental research work has been carried out to investigate precipitation peculiarities in Mg-Zn-Sn-based alloys during aging at different temperatures. This in-depth research was conducted on Mg-4.4wt%Zn-4.0wt%Sn-0.6wt%Y and Mg-4.4wt%Zn-4.4wt%Sn-1.1wt%Sb using x-ray diffraction (XRD), transmission electron microscopy (TEM) including high-resolution TEM, and scanning electron microscopy (SEM) equipped with an energy-dispersive x-ray spectrometer (EDS). It was found that, first, a hexagonal close-packed (hcp)-MgZn 2 phase nucleates and grows in the form of needles having coherent interphase boundaries with ␣-Mg matrix. Then the face-centered cubic (fcc)-Mg 2 Sn-phase nucleates heterogeneously, mainly at the tips of MgZn 2 needles. A very certain mutual orientation of crystal lattices of MgZn 2 , Mg 2 Sn, and ␣-Mg matrix was revealed. The orientation of Mg 2 Sn precipitates is perpendicular to that of MgZn 2 needles. They grow in the form of plates parallel to the basal planes of ␣-Mg matrix. Two-phase T-like particles are very typical of alloys aged for 1 to 16 days at 175 to 225°C. The width/length ratio of MgZn 2 needles inside T-like particles differs substantially from that found in single needles. The elastic/surface energy balance of needles and its influence on the morphology and coarsening behavior has been analyzed.

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Precipitation Sequence in Mg-Zn-Sn Based Alloys

et al. 2006

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Extensive experimental research work has been carried out in order to develop an Mg-Zn-Sn based creep resistant alloy. It was found that the addition of Y improves the structural stability of this alloy. The main goal of this work was to investigate precipitation sequence in Mg-Zn-Sn-Y alloys during aging at different temperatures. In order to elucidate the sequence of phase formation, XRD, TEM, SEM and EDS analyses were applied. It was found that, firstly, an hcp-MgZn2 phase nucleates homogeneously, and grows in the form of needles having coherent interphase boundaries with Mg-matrix. High-resolution TEM images in combination with Fourier transformed images reveal a topotaxial orientation relationship which is given by {110}MgZn2 <100>MgZn2∥(002)α-Mg<110>α-Mg. The cubic fcc Mg2Sn-phase nucleates heterogeneously, mainly at the tips of MgZn2-needles when the needle's width reaches a certain critical value. The orientation of Mg2Sn-precipitates is usually perpendicular to the one of MgZn2-needles. Two-phase T-like particles are very typical of alloys aged for 1-16 days at 175-225C. The width/length ratio of MgZn2-needles inside T-like particles differs substantially from the one found in single needles. The elastic/surface energy balance of needles and its influence on the morphology and coarsening behaviour has been analyzed.

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Anton Gorny

Evolution of Fe based intermetallic phases in Al–Si hypoeutectic casting alloys: Influence of the Si and Fe concentrations, and solidification rate

High temperature phase stabilized microstructure in Mg–Zn–Sn alloys with Y and Sb additions

X-ray nano-diffraction study of Sr intermetallic phase during solidification of Al-Si hypoeutectic alloy

Precipitation- and stress-influenced coarsening in Mg-based Mg–Zn–Sn–Y and Mg–Zn–Sn–Sb alloys

Precipitation Sequence in Mg-Zn-Sn Based Alloys

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