Analysis of high flow stress and microstructural evolution of TC6 titanium alloy during isothermal forging

A. M. Xiong; M. Q. Li; W. C. Huang; S. H. Chen; H. Lin

doi:10.1179/026708304X6095

Analysis of high flow stress and microstructural evolution of TC6 titanium alloy during isothermal forging

A. M. Xiong, M. Q. Li, W. C. Huang, S. H. Chen, H. Lin

School of Materials Sience and Engineering

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

4 Scopus citations

Abstract

Elevated temperature true stress-strain curves have been determined for the isothermal deformation of a TC6 titanium alloy using hot compression testing in the deformation temperature range 800-1040°C, strain rate range 0.001-50 s ^-1 and reduction in height of 30-50%. The experimental results show that the flow stress of TC6 titanium alloy is strongly dependent on process parameters, especially on the deformation temperature and strain rate. The peak stress and steady stress of such an alloy have the same characterisation, which increases with higher strain rate and lower deformation temperature. During isothermal forging, microstructural characterisation, including volume fraction, grain size, and grain pattern of prior α phase, varies with different temperatures, height reductions, and strain rates.

Original language	English
Pages (from-to)	1257-1260
Number of pages	4
Journal	Materials Science and Technology
Volume	20
Issue number	10
DOIs	https://doi.org/10.1179/026708304X6095
State	Published - Oct 2004

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abstract = "Elevated temperature true stress-strain curves have been determined for the isothermal deformation of a TC6 titanium alloy using hot compression testing in the deformation temperature range 800-1040°C, strain rate range 0.001-50 s -1 and reduction in height of 30-50%. The experimental results show that the flow stress of TC6 titanium alloy is strongly dependent on process parameters, especially on the deformation temperature and strain rate. The peak stress and steady stress of such an alloy have the same characterisation, which increases with higher strain rate and lower deformation temperature. During isothermal forging, microstructural characterisation, including volume fraction, grain size, and grain pattern of prior α phase, varies with different temperatures, height reductions, and strain rates.",

author = "Xiong, {A. M.} and Li, {M. Q.} and Huang, {W. C.} and Chen, {S. H.} and H. Lin",

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AU - Xiong, A. M.

AU - Li, M. Q.

AU - Huang, W. C.

AU - Chen, S. H.

AU - Lin, H.

PY - 2004/10

Y1 - 2004/10

N2 - Elevated temperature true stress-strain curves have been determined for the isothermal deformation of a TC6 titanium alloy using hot compression testing in the deformation temperature range 800-1040°C, strain rate range 0.001-50 s -1 and reduction in height of 30-50%. The experimental results show that the flow stress of TC6 titanium alloy is strongly dependent on process parameters, especially on the deformation temperature and strain rate. The peak stress and steady stress of such an alloy have the same characterisation, which increases with higher strain rate and lower deformation temperature. During isothermal forging, microstructural characterisation, including volume fraction, grain size, and grain pattern of prior α phase, varies with different temperatures, height reductions, and strain rates.

AB - Elevated temperature true stress-strain curves have been determined for the isothermal deformation of a TC6 titanium alloy using hot compression testing in the deformation temperature range 800-1040°C, strain rate range 0.001-50 s -1 and reduction in height of 30-50%. The experimental results show that the flow stress of TC6 titanium alloy is strongly dependent on process parameters, especially on the deformation temperature and strain rate. The peak stress and steady stress of such an alloy have the same characterisation, which increases with higher strain rate and lower deformation temperature. During isothermal forging, microstructural characterisation, including volume fraction, grain size, and grain pattern of prior α phase, varies with different temperatures, height reductions, and strain rates.

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Analysis of high flow stress and microstructural evolution of TC6 titanium alloy during isothermal forging

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