High-temperature titanium alloys are one of the most important research directions in the
field of high-temperature aerospace alloys. They are mainly used in high-temperature …

The history of solid solution strengthened high temperature titanium alloys was briefly
reviewed and those alloys developed in the UK, USA and Russia were compared. Three …

To study the anisotropy of mechanical properties at 600° C in a near-α titanium alloy Ti60, a
highly T-type textured plate was prepared, and tensile tests, creep tests and creep rupture …

The understanding of softening mechanisms for high-temperature titanium alloys at service
temperature is essential to guarantee their service stability and safety. High-temperature …

A dynamic strain aging (DSA) regime is established for a near-α titanium alloy with a
microstructure consisting of 80% equiaxed α, 15% lamellar α and 5% β with silicon in solid …

The tensile properties at room temperature and 600° C of TG6 titanium alloy with different
microstructures {bi-modal microstructures with thick α lamella (BTL) and fine α lamella (BFL) …

This work presents a comprehensive study of the densification behavior, phase and
microstructure development, high temperature tensile performance of a novel near-α high …

Laser shock peening (LSP) is a novel surface treatment technique for strengthening metal
materials. The microstructural response of lamellar Ti834 alloy was investigated after treated …

High-temperature titanium alloys are the key materials for the components in aerospace and
their service life depends largely on creep deformation-induced failure. However, the …

The effect of heat treatment on the tensile creep behavior of duplex titanium alloy Ti–6.3 Al–
1.6 Zr–3.4 Mo–0.3 Si (TC11) at 500° C, 300MPa, as well as the tensile creep of heat-treated …