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Volume 38, Issue 6
9 July 2021
Engineering Computations Cover Image for Volume 38, Issue 6
Research Article| December 28 2020

Linear analysis of parameters in Arrhenius model for Ti-6Al-4V at superplastic forming Available to Purchase

Junzhou Yang;
Junzhou Yang
School of Mechanical Engineering,
Northwestern Polytechnical University
, Xi’an,
China

Junzhou Yang is PhD candidate, Northwestern Polytechnical University, engaged in the research of material forming mechanism, rheological behavior analysis and forming process optimization.

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Jianjun Wu;
Jianjun Wu
School of Mechanical Engineering,
Northwestern Polytechnical University
, Xi’an,
China

Jianjun Wu is Professor, Northwestern Polytechnical University, engaged in research on the theory of large deformation and plasticity of materials.

Jianjun Wu can be contacted at: wujj@nwpu.edu.cn
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Qianwen Zhang;
Qianwen Zhang
School of Mechanical Engineering,
Northwestern Polytechnical University
, Xi’an,
China

Qianwen Zhang PhD candidate, Northwestern Polytechnical University, engaged in complex parts forming process research.

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Yinxiang Ren;
Yinxiang Ren
School of Mechanical Engineering,
Northwestern Polytechnical University
, Xi’an,
China

Yinxiang Ren Graduate student, Northwestern Polytechnical University, engaged in research on heat treatment properties of materials.

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Han Ruolan;
Han Ruolan
School of Mechanical Engineering,
Northwestern Polytechnical University
, Xi’an,
China

Ruolan Han Graduate student, Northwestern Polytechnical University, engaged in finite element simulation research.

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Kaiwei Wang
Kaiwei Wang
School of Mechanical Engineering,
Northwestern Polytechnical University
, Xi’an,
China

Kaiwei Wang Graduate student, Northwestern Polytechnical University, engaged in finite element simulation research.

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Author & Article Information
Jianjun Wu can be contacted at: wujj@nwpu.edu.cn
Publisher: Emerald Publishing
Received: May 16 2020
Revision Received: September 01 2020
Revision Received: September 21 2020
Accepted: October 12 2020
Online ISSN: 1758-7077
Print ISSN: 0264-4401
© Emerald Publishing Limited
2020
Emerald Publishing Limited
Licensed re-use rights only
Engineering Computations (2021) 38 (6): 2528–2551.
https://doi.org/10.1108/EC-05-2020-0266
Article history
Received:
May 16 2020
Revision Received:
September 01 2020
Revision Received:
September 21 2020
Accepted:
October 12 2020
Purpose

With the discussion on the linear relationship of determined material parameters, this study aims to propose a new method to analyze the deformation mechanism.

Design/methodology/approach

A modified constitutive model based on the hyperbolic sine Arrhenius equation has been established, which is applied to describe the flow behavior of Ti-6Al-4V alloy during the superplastic forming (SPF).

Findings

The modified constitutive model in this work has a good ability to describe the flow behavior for Ti-6Al-4V in SPF. Besides, a deformation map of titanium material is obtained based on the parameters. As the supplement, finite element models of high-temperature tensile tests are carried out as the application of the constitutive model.

Originality/value

The relationship between constitutive model parameters and forming mechanism is established, which is a new angle in rheological behavior research and constitutive model analysis.

Keywords:
Ti-6Al-4V, Arrhenius model, Parameter analysis, Superplastic behavior
© Emerald Publishing Limited
2020
Emerald Publishing Limited
Licensed re-use rights only
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