Modeling of High-Temperature Flow Stress of VN and Nb-Ti Microalloyed Steels during Hot Compressive Deformation

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Modeling of High-Temperature Flow Stress of VN and Nb-Ti Microalloyed Steels during Hot Compressive Deformation

机译：VN和Nb-Ti微合金钢高温流应力的建模在热压缩变形过程中

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A simple mathematical model has been developed which describes the flow curve behavior up to the peak true stress or a true strain of 0.6 in unstable austenite. The hot working behavior was analyzed by compression tests over a temperature range of 750–1000?°C and at strain rates of 0.1–50?s?1. The constitutive behavior focused on the interaction between work hardening and dynamic softening attributed to recovery, recrystallization and dynamic austenite to ferrite transformation. This model extends the application of the well-established Estrin and Mecking (EM) work-hardening model in the unstable austenite region. The work hardening is countered by softening kinetics, represented in this model by JMAK-type expressions for both dynamic transformation and recrystallization. The predicted results correlate well with experimental results in VN and Nb-Ti microalloyed steels.

机译：已经开发了一种简单的数学模型，其将流动曲线行为描述为峰值真应力或在不稳定的奥氏体中为0.6的真正应变。通过压缩试验在750-1000Ω°C的温度范围内和0.1-50Ω··s≤1的应变率分析热工作行为。本构行为集中于工作硬化和动态软化之间的相互作用，其归因于回收，重结晶和动态奥氏体对铁氧体转化。该模型扩展了在不稳定的奥氏体区域中熟悉的雌激素和熔化（EM）工作硬化模型的应用。通过柔软的动力学来抵消工作硬化，通过JMAK型表达式在该模型中表示，用于动态变换和再结晶。预测结果与VN和Nb-Ti微合金钢的实验结果良好相关。

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《Journal of Materials Engineering and Performance》 |2020年第1期|共12页
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正文语种 eng
中图分类金属学与金属工艺;工程材料学;
关键词
dynamic recrystallization; dynamic transformation; flow stress; hot rolling; modeling;

机译：动态再结晶;动态变换;流量应力;热轧;建模;

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1. Modeling of High-Temperature Flow Stress of VN and Nb-Ti Microalloyed Steels during Hot Compressive Deformation [J] . Journal of Materials Engineering and Performance . 2020,第1期

机译：VN和Nb-Ti微合金钢高温流应力的建模在热压缩变形过程中
2. A simple constitutive model for predicting flow stress of medium carbon microalloyed steel during hot deformation [J] . Zohreh Akbari, Hamed Mirzadeh, Jose-Maria Cabrera Materials & design . 2015,第jula期

机译：预测中碳微合金钢热变形过程中流变应力的简单本构模型
3. Evolution of non-uniform grain structure during hot deformation of a Nb-Ti microalloyed steel [J] . T. Katajarinne, M. Somani, P. Karjalainen Revista de metalurgia . 2004,第5期

机译：Nb-Ti微合金钢热变形过程中非均匀晶粒组织的演变
4. Effect of Deformation on the Hot Ductility and Microstructural Evolution of a Nb-Ti Microalloyed Steel [C] . Siamak Akhlaghi, Farid Hassani, Steve Yue Mechanical working and steel processing conference . 1999

机译：变形对Nb-Ti微合金钢热延性和组织演变的影响
5. The Effect of Cool Deformation on the Microstructural Evolution and Flow Strength of Microalloyed Steels [D] . Mousavi Anijdan, Seyyed Hashem 2011

机译：冷变形对微合金钢组织演变和流动强度的影响
6. Two flow stress models for describing hot deformation behavior of AISI-1045 medium carbon steel at elevated temperatures [O] . Mohanraj Murugesan, Dong Won Jung 2019

机译：用于描述AISI-1045中碳钢在高温下的热变形行为的两个流动应力模型
7. A simple constitutive model for predicting flow stress of medium carbon microalloyed steel during hot deformation [O] . Akbari, Zohreh, Mirzadeh, H., Cabrera Marrero, José M. 2015

机译：一种简单的本构模型预测中碳微合金钢热变形过程中的流变应力

Modeling of High-Temperature Flow Stress of VN and Nb-Ti Microalloyed Steels during Hot Compressive Deformation

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