In the present work, the adiabatic shear characteristics of our recently designed α+ β dual-
phase Ti alloy at different strain rates have been investigated by hat shaped specimen. The …

In the present work, the localized features of adiabatic shear bands (ASBs) of our recently
designed damage tolerance α+ β dual-phase Ti alloy are investigated by the integration of …

In this paper, the composition distribution characteristics in adiabatic shear bands (ASBs) of
an α/β dual phase Ti-5.5 Mo-7.2 Al-4.5 Zr-2.6 Sn-2.1 Cr alloy and its influence on dynamic …

The adiabatic shear band (ASB) was obtained by split Hopkinson pressure bar (SHPB)
technique in the hat-shaped specimen of a near beta-Ti alloy. The microstructure and the …

A dynamic compression test was performed on α+ β dual-phase titanium alloy Ti20C using a
split Hopkinson pressure bar. The formation of adiabatic shear bands generated during the …

Much efforts have been made on the studies of the microstructure evolution near adiabatic
shear bands (ASBs) in titanium alloys. However, the deeper evolution mechanism is not very …

This work systematically investigates the microstructural evolution and deformation
mechanism of lamellar and equiaxed Ti-55511 alloys during hot deformation. For textural …

The concurrent hot deformation and temperature drop is an important phenomenon in hot
forging of two-phase titanium alloys. Understanding the microstructure development in this …

This study examined the dynamic compressive properties and adiabatic shear behavior of β-
type Ti–10Mo, Ti–15Mo, and Ti–22.5 Mo alloys whose deformation modes are stress …

The hot deformation behavior, dynamic recrystallization, and texture evolution of Ti–22Al–
25Nb alloy in the temperature range of 950–1050° C and strain rate range of 0.001–1 s− 1 is …