Internal state variable models for microstructure in high temperature deformation of titanium alloys

Jiao Luo; Miao Quan Li; Xiao Li Li

doi:10.1007/s11431-008-0113-x

Internal state variable models for microstructure in high temperature deformation of titanium alloys

Jiao Luo, Miao Quan Li, Xiao Li Li

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

3 Scopus citations

Abstract

There exists an interaction between microstructural evolution and deformation behavior in high temperature deformation of titanium alloys. And the microstructure of titanium alloys is very sensitive to the process parameters of plastic deformation process. In this paper, on the basis of plastic deformation mechanism of metals and alloys, a microstructural model including dislocation density rate equation and grain growth rate equation is established with the dislocation density rate being an internal state variable. Applying the model to the high temperature deformation process of Ti60 titanium alloy, the average relative errors of grain sizes between the experiments and the predictions are 9.47% for sampled data, and 13.01% for non-sampled data.

Original language	English
Pages (from-to)	1921-1929
Number of pages	9
Journal	Science in China, Series E: Technological Sciences
Volume	51
Issue number	11
DOIs	https://doi.org/10.1007/s11431-008-0113-x
State	Published - Nov 2008

Keywords

Dislocation density
Grain size
Models
Parameter recognition
Titanium alloy

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abstract = "There exists an interaction between microstructural evolution and deformation behavior in high temperature deformation of titanium alloys. And the microstructure of titanium alloys is very sensitive to the process parameters of plastic deformation process. In this paper, on the basis of plastic deformation mechanism of metals and alloys, a microstructural model including dislocation density rate equation and grain growth rate equation is established with the dislocation density rate being an internal state variable. Applying the model to the high temperature deformation process of Ti60 titanium alloy, the average relative errors of grain sizes between the experiments and the predictions are 9.47% for sampled data, and 13.01% for non-sampled data.",

keywords = "Dislocation density, Grain size, Models, Parameter recognition, Titanium alloy",

author = "Jiao Luo and Li, {Miao Quan} and Li, {Xiao Li}",

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AU - Luo, Jiao

AU - Li, Miao Quan

AU - Li, Xiao Li

PY - 2008/11

Y1 - 2008/11

N2 - There exists an interaction between microstructural evolution and deformation behavior in high temperature deformation of titanium alloys. And the microstructure of titanium alloys is very sensitive to the process parameters of plastic deformation process. In this paper, on the basis of plastic deformation mechanism of metals and alloys, a microstructural model including dislocation density rate equation and grain growth rate equation is established with the dislocation density rate being an internal state variable. Applying the model to the high temperature deformation process of Ti60 titanium alloy, the average relative errors of grain sizes between the experiments and the predictions are 9.47% for sampled data, and 13.01% for non-sampled data.

AB - There exists an interaction between microstructural evolution and deformation behavior in high temperature deformation of titanium alloys. And the microstructure of titanium alloys is very sensitive to the process parameters of plastic deformation process. In this paper, on the basis of plastic deformation mechanism of metals and alloys, a microstructural model including dislocation density rate equation and grain growth rate equation is established with the dislocation density rate being an internal state variable. Applying the model to the high temperature deformation process of Ti60 titanium alloy, the average relative errors of grain sizes between the experiments and the predictions are 9.47% for sampled data, and 13.01% for non-sampled data.

KW - Dislocation density

KW - Grain size

KW - Models

KW - Parameter recognition

KW - Titanium alloy

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M3 - 文章

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VL - 51

SP - 1921

EP - 1929

JO - Science in China, Series E: Technological Sciences

JF - Science in China, Series E: Technological Sciences

IS - 11

ER -

Internal state variable models for microstructure in high temperature deformation of titanium alloys

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Keywords

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