On Mechanism underlying high temperature compressive behavior of Ti-17 alloy

Weidong Zeng; Yigang Zhou; Hanqing Yu

On Mechanism underlying high temperature compressive behavior of Ti-17 alloy

Weidong Zeng, Yigang Zhou, Hanqing Yu

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

Abstract

The research reveals that: (1) in β region, the dominant mechanism is dynamic recovery characteristic of diffusion, the activation energy for β region is 161kJ/mol, close to self-diffusion activation energy of β phase., (2) in (α+β) region, dislocation slip is the dominant mechanism, the activation energy of (α+β) region is 437kJ/mol, far above self-diffusion activation energy of α and β phases., and (3) in near β region, both dynamic recovery and dislocation slip mechanisms exist.

Original language	English
Pages (from-to)	165-169
Number of pages	5
Journal	Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams
Volume	8
Issue number	4
State	Published - 1 Jan 1996

Cite this

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title = "On Mechanism underlying high temperature compressive behavior of Ti-17 alloy",

abstract = "The research reveals that: (1) in β region, the dominant mechanism is dynamic recovery characteristic of diffusion, the activation energy for β region is 161kJ/mol, close to self-diffusion activation energy of β phase., (2) in (α+β) region, dislocation slip is the dominant mechanism, the activation energy of (α+β) region is 437kJ/mol, far above self-diffusion activation energy of α and β phases., and (3) in near β region, both dynamic recovery and dislocation slip mechanisms exist.",

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N2 - The research reveals that: (1) in β region, the dominant mechanism is dynamic recovery characteristic of diffusion, the activation energy for β region is 161kJ/mol, close to self-diffusion activation energy of β phase., (2) in (α+β) region, dislocation slip is the dominant mechanism, the activation energy of (α+β) region is 437kJ/mol, far above self-diffusion activation energy of α and β phases., and (3) in near β region, both dynamic recovery and dislocation slip mechanisms exist.

AB - The research reveals that: (1) in β region, the dominant mechanism is dynamic recovery characteristic of diffusion, the activation energy for β region is 161kJ/mol, close to self-diffusion activation energy of β phase., (2) in (α+β) region, dislocation slip is the dominant mechanism, the activation energy of (α+β) region is 437kJ/mol, far above self-diffusion activation energy of α and β phases., and (3) in near β region, both dynamic recovery and dislocation slip mechanisms exist.

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JF - Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams

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ER -

On Mechanism underlying high temperature compressive behavior of Ti-17 alloy

Abstract

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