The origins of flow softening during high-temperature deformation of a Ti–6Al–4V alloy with a lamellar microstructure-Reference-Cited by-同舟云学术

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The origins of flow softening during high-temperature deformation of a Ti–6Al–4V alloy with a lamellar microstructure

Published:2014-01 Issue: Volume:582 Page:126-129
ISSN:0925-8388
Container-title:Journal of Alloys and Compounds
language:en
Short-container-title:Journal of Alloys and Compounds

Author:

Park Chan Hee,Kim Jeoung Han,Hyun Yong-Taek,Yeom Jong-Taek,Reddy N.S.

Publisher

Elsevier BV

Subject

Materials Chemistry,Metals and Alloys,Mechanical Engineering,Mechanics of Materials

Reference17 articles.

1. Hot working of commercial Ti–6Al–4V with an equiaxed α–β microstructure: materials modeling considerations

2. Modeling of microstructure evolution during the thermomechanical processing of titanium alloys;Semiatin,2009

3. Mechanisms and Kinetics of Static Spheroidization of Hot-Worked Ti-6Al-2Sn-4Zr-2Mo-0.1Si with a Lamellar Microstructure

4. Prediction of termination migration of a rod-type particle in Ti–6Al–4Fe alloy

5. A Self-Consistent Approach for Modeling the Flow Behavior of the Alpha and Beta Phases in Ti-6Al-4V

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1. Effects of hybrid reinforcements on flow softening of two-scale network-structured (TiBw+Ti5Si3)/TA15 composites during deformation in α+β region;Materials Science and Engineering: A;2024-09

2. New Insights into the Ingot Breakdown Mechanism of Near-β Titanium Alloy: An Orientation-Driven Perspective;Metals;2024-07-07

3. Microstructural characteristics and recrystallization mechanism of Ti-6.5Al–2Zr–1Mo–1V alloy during two-stage hot deformation;Journal of Materials Research and Technology;2024-05

4. Lath decomposition and dispersion induced by heterostructure deformation and associated interactions in a lamellae metastable-β Ti alloy during subtransus processing;Materials Science and Engineering: A;2024-02

5. Dynamic Spheroidization Mechanism and Its Orientation Dependence of Ti-6Al-2Mo-2V-1Fe Alloy during Subtransus Hot Deformation;Materials;2023-08-22

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