2014
DOI: 10.1016/j.msea.2014.04.028
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The dynamic response of a β titanium alloy to high strain rates and elevated temperatures

Abstract: The stress-strain behaviour and microstructural evolution of the Ti-6Cr-5Mo-5V-4Al (Ti6554) alloy was systematically investigated using Split Hopkinson Pressure Bar (SHPB) tests over a wide range of strain rates from 1000 s -1 to 10000 s -1 and initial temperatures from 293K to 1173K. Dislocation slip is the main deformation mechanism for plastic flow of the Ti6554 alloy at high strain rates. The flow stress increases with increasing strain rate and decreasing temperature. Also the flow stress is more sensitiv… Show more

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Cited by 54 publications
(28 citation statements)
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References 50 publications
(57 reference statements)
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“…Furthermore, flow stress of the Ti6554 alloy is more sensitive to temperature than strain rate. Flow curves at 293K all exhibit a negative strain hardening rate while the strain hardening rate will increase to become positive with increasing temperature, which has been attributed to dynamic strain aging (DSA) caused by the activation of solute Cr atoms in our previous study [30]. The flow curve from the test at 1173K and 4000 s -1 in Fig.3 (b) reveals a small peak at a strain of 0.125 followed by a gradual drop of stress towards a plateau, which is the main characteristic of dynamic recrystallization (DRX).…”
Section: Flow Stress Behaviourmentioning
confidence: 64%
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“…Furthermore, flow stress of the Ti6554 alloy is more sensitive to temperature than strain rate. Flow curves at 293K all exhibit a negative strain hardening rate while the strain hardening rate will increase to become positive with increasing temperature, which has been attributed to dynamic strain aging (DSA) caused by the activation of solute Cr atoms in our previous study [30]. The flow curve from the test at 1173K and 4000 s -1 in Fig.3 (b) reveals a small peak at a strain of 0.125 followed by a gradual drop of stress towards a plateau, which is the main characteristic of dynamic recrystallization (DRX).…”
Section: Flow Stress Behaviourmentioning
confidence: 64%
“…When the incident pulse reaches the interface between the input bar and the specimen, part of the pulse (reflected pulse) will be reflected back to the Input bar while the rest (transmitted pulse) will be transmitted to the output bar through the specimen. These pulses will be recorded by the strain gages mounted on the bars [30]. The flow stress σ, strain ε and strain rate ̇are calculated using equations as follow: …”
Section: High Strain Rate Testingmentioning
confidence: 99%
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