A. Lenain scite author profile

This paper presents and discusses static (elastoviscoplastic and damage) and high‐cycle fatigue characterization of two microstructures of the Ti5553 alloy. The difference between these two microstructures is related to their heat treatment and precisely to the temperature of the final aging. For each microstructure, several tests were carried out to identify their static and fatigue properties and the test results were correlated to the microstructure. A fractographic analysis of the rupture sections was performed in order to investigate the fracture mechanisms of the two microstructures. Finally, the fatigue properties of the two microstructures were compared with those found in results reported in the literature for two other classical titanium alloys used for aeronautical applications.

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Characterization of the α Phase Nucleation in a Two-Phase Metastable β Titanium Alloy

Lenain

Clément

Véron

et al. 2005

Journal of Materials Engineering and Performance

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Ti575: A New Timet Alloy for Structural Parts in Aeronautics

Andrieu¹,

Thüngen

Lenain

et al. 2016

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A. Lenain

A β-titanium alloy with extra high strain-hardening rate: Design and mechanical properties

Mechanical property optimization via microstructural control of new metastable beta titanium alloys

Static and fatigue characterization of the Ti5553 titanium alloy

Characterization of the α Phase Nucleation in a Two-Phase Metastable β Titanium Alloy

Ti575: A New Timet Alloy for Structural Parts in Aeronautics

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