Hot Deformation Behavior of a Spray-Deposited Al-8.31Zn-2.07Mg-2.46Cu-0.12Zr Alloy

Abstract: Abstract:Metallic materials have a significant number of applications, among which Al alloys have drawn people's attention due to their low density and high strength. High-strength Al-based alloys, such as 7XXX Al alloys, contain many alloying elements and with high concentration, whose microstructures present casting voids, segregation, dendrites, etc. In this work, a spray deposition method was employed to fabricate an Al-8.31Zn-2.07Mg-2.46Cu-0.12Zr (wt %) alloy with fine structure. The hot deformation behav… Show more

“…In this work, the solidification rate was estimated as 10 3 -10 4 °C/s based on the parameters listed in Table 1, which provided sufficient cooling rate to solidify the melt within one second. The extreme fast cooling rate forced the crystallization of partial melt to occurr directly from the liquid state without generating dendrites; similar result was found in previous reports [4,5,9]. As a result, equiaxed grains with average size 42 ± 1.2 μm were obtained after the spray deposition, as illustrated in Figure 1.…”

“…Temperatures ranging from 380 to 460 • C were proved to be the optimal deformation window according to our previous work, in which, the as-deposited alloy 7055 could be directly deformed without being subjected to pre-heat treatment [9]. In this article, we introduced isothermal compression to evaluate the effects of deformation temperatures (340 to 460 • C) and strain rates (0.001 and 1.0 s −1 ) on the homogeneity of the microstructure.…”

“…With the assistance of spray deposition method, the aluminum alloy with high alloying could be produced with segregation being controlled at the micro-scale level. In this situation, the as-deposited alloy could be deformed under controllable parameters without being subjected to pre-homogenization heat treatment [9]. Recently, significant efforts have been made to study the hot deformation behaviors [10][11][12][13][14][15], quenching sensitivity [16][17][18][19], corrosion resistance [20-23] and weldability [24-29] of 7055.…”

“…The XRD (X-ray diffraction) of spray-deposition 7055 aluminum alloy showing the existed phases[9] (Metals, 2017).…”

“…The SEM (scanning electron microscope) images of spray-deposition 7055 at different magnification[9] (Metals, 2017): (a) 1000x; (b) 2000x.…”

Hot Extrusion Enhanced Homogenization of Microstructure in a Spray Deposition Aluminum Alloy

“…In this work, the solidification rate was estimated as 10 3 -10 4 °C/s based on the parameters listed in Table 1, which provided sufficient cooling rate to solidify the melt within one second. The extreme fast cooling rate forced the crystallization of partial melt to occurr directly from the liquid state without generating dendrites; similar result was found in previous reports [4,5,9]. As a result, equiaxed grains with average size 42 ± 1.2 μm were obtained after the spray deposition, as illustrated in Figure 1.…”

“…Temperatures ranging from 380 to 460 • C were proved to be the optimal deformation window according to our previous work, in which, the as-deposited alloy 7055 could be directly deformed without being subjected to pre-heat treatment [9]. In this article, we introduced isothermal compression to evaluate the effects of deformation temperatures (340 to 460 • C) and strain rates (0.001 and 1.0 s −1 ) on the homogeneity of the microstructure.…”

“…With the assistance of spray deposition method, the aluminum alloy with high alloying could be produced with segregation being controlled at the micro-scale level. In this situation, the as-deposited alloy could be deformed under controllable parameters without being subjected to pre-homogenization heat treatment [9]. Recently, significant efforts have been made to study the hot deformation behaviors [10][11][12][13][14][15], quenching sensitivity [16][17][18][19], corrosion resistance [20-23] and weldability [24-29] of 7055.…”

“…The XRD (X-ray diffraction) of spray-deposition 7055 aluminum alloy showing the existed phases[9] (Metals, 2017).…”

“…The SEM (scanning electron microscope) images of spray-deposition 7055 at different magnification[9] (Metals, 2017): (a) 1000x; (b) 2000x.…”

Hot Extrusion Enhanced Homogenization of Microstructure in a Spray Deposition Aluminum Alloy

Mechanism for enhancing the corrosion resistance in a spray deposition aluminum alloy Al-8.31Zn-2.46Cu-2.07Mg-0.12Zr

Hot deformation mechanism of a rapidly-solidified Al–Zn–Mg–Cu–Zr alloy