Gamma-phase homogenization and texture in U–7.5Nb–2.5Zr (Mulberry) alloy

“…Based on this knowledge, a hypothesis for the behavior shown in Figure 3 is that for lower degree of deformation (20 pct), the sample stores energy introduced by rolling and, in posterior annealing, uses that energy as a driving force to aid the formation of a¢¢, with Table I. Chemical Composition (Weight Percent) of the Induction Melted Alloy [24] Element (Wt Pct) a consequent increase in hardness. For a higher degree of deformation, the sample stored enough energy to promote both a'' precipitation and recovery.…”

“…As the heat treatments were performed separately and in random order, the c o phase was unlikely to have occurred due to experimental error, especially if we take into account the c s stabilization in the homogenized state. [24] It is reasonable to assume that recrystallization created some preferential orientation, and this orientation favored the formation of c o instead c s in the quench process.…”

“…8-XRD patterns of the alloy U-7.5Nb-2.5Zr cold rolled (degree of deformation 20 and 80 pct) subjected to isothermal annealing at 973 K (700°C) for 1 and 4 h compared to the homogenized (1273 K/5 h Ref. [24]) and deformed states (20 and 80 pct). The normal probability plot of residuals is provided in Figure 13.…”

“…[26] Two samples, taken from different positions in the longitudinal direction of the casting piece (top and center), were analyzed to check their homogeneity, as shown in Table I. [24] After melting, the alloy was heat treated at 1273 K (1000°C) for 5 hours in an argon atmosphere followed by water quenching to obtain a homogeneous microstructure of c-phase at room temperature. Retention of c-phase was verified by measurements of Vickers hardness (loaded with 500 gf for 10 seconds), optical microscopy, and Xray diffraction.…”

Hardness Response Surface for U-7.5Nb-2.5Zr Alloy: A Study of Recovery/Recrystallization and Phase Transformation Interactions

“…Based on this knowledge, a hypothesis for the behavior shown in Figure 3 is that for lower degree of deformation (20 pct), the sample stores energy introduced by rolling and, in posterior annealing, uses that energy as a driving force to aid the formation of a¢¢, with Table I. Chemical Composition (Weight Percent) of the Induction Melted Alloy [24] Element (Wt Pct) a consequent increase in hardness. For a higher degree of deformation, the sample stored enough energy to promote both a'' precipitation and recovery.…”

“…As the heat treatments were performed separately and in random order, the c o phase was unlikely to have occurred due to experimental error, especially if we take into account the c s stabilization in the homogenized state. [24] It is reasonable to assume that recrystallization created some preferential orientation, and this orientation favored the formation of c o instead c s in the quench process.…”

“…8-XRD patterns of the alloy U-7.5Nb-2.5Zr cold rolled (degree of deformation 20 and 80 pct) subjected to isothermal annealing at 973 K (700°C) for 1 and 4 h compared to the homogenized (1273 K/5 h Ref. [24]) and deformed states (20 and 80 pct). The normal probability plot of residuals is provided in Figure 13.…”

“…[26] Two samples, taken from different positions in the longitudinal direction of the casting piece (top and center), were analyzed to check their homogeneity, as shown in Table I. [24] After melting, the alloy was heat treated at 1273 K (1000°C) for 5 hours in an argon atmosphere followed by water quenching to obtain a homogeneous microstructure of c-phase at room temperature. Retention of c-phase was verified by measurements of Vickers hardness (loaded with 500 gf for 10 seconds), optical microscopy, and Xray diffraction.…”

Hardness Response Surface for U-7.5Nb-2.5Zr Alloy: A Study of Recovery/Recrystallization and Phase Transformation Interactions

“…Prior work involving the modeling of the homogenization kinetics in the as-cast U-10Mo does not exist; however preliminary work involving U-Nb alloy work was performed by Snyder in 1978 [10,11]and more recently by Lopez et. al on U-7.5Nb-2.5Zr [12] alloys. These models used scanning electron microscope (SEM) energy dispersive spectroscopy (EDS) line scans and microhardness measurements to determine the degree of inhomogeneity.…”

Modeling the homogenization kinetics of as-cast U-10wt% Mo alloys

Cluster-plus-glue-atom model and universal composition formulas [cluster](glue atom)x for BCC solid solution alloys