Constitutive modeling of nitrogen-alloyed austenitic stainless steel at low and high strain rates and temperatures

•Thermo-mechanical response of nitrogen-alloyed steels is studied at high strain rates.•A combined approach of two different principal mechanisms is considered in the constitutive modeling.•The flow stress was accurately predicted using microstructures-based material parameters.•Two different defini...

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Published in:	Mechanics of materials Vol. 77; pp. 142 - 157
Main Authors:	Abed, Farid H., Ranganathan, Shivakumar I., Serry, Mohamed A.
Format:	Journal Article
Language:	English
Published:	Elsevier Ltd 01-10-2014
Subjects:	Austenitic stainless steels Computer simulation Constitutive modeling Corrosion resistant steels Dislocation density Flow stress Mathematical models Nitronic-50 Stainless steel Stainless steels Strain rate Temperature Uranus-B66 Yield strength Uranus-B66 Nitronic-50 Temperature Stainless steel Constitutive modeling Strain rate
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Abstract	•Thermo-mechanical response of nitrogen-alloyed steels is studied at high strain rates.•A combined approach of two different principal mechanisms is considered in the constitutive modeling.•The flow stress was accurately predicted using microstructures-based material parameters.•Two different definitions for the strain hardening are considered.•The effect of the physical quantitates at the microstructures on the alloys’ response is investigated. In this paper, microstructures-based constitutive relations are introduced to simulate the thermo-mechanical response of two nitrogen-alloyed austenitic stainless steels; Nitronic-50 and Uranus-B66, under static and dynamic loadings. The simulation of the flow stress is developed based on a combined approach of two different principal mechanisms; the cutting of dislocation forests and the overcoming of Peierls–Nabarro barriers. The experimental observations for Nitronic-50 and Uranus-B66 conducted by Guo and Nemat-Nasser (2006) and Fréchard et al. (2008), respectively, over a wide range of temperatures and strain rates are also utilized in understanding the underlying deformation mechanisms. Results for the two stainless steels reveal that both the initial yielding and strain hardening are strongly dependent on the coupling effect of temperatures and strain rates. The methodology of obtaining the material parameters and their physical interpretation are presented thoroughly. The present model predicts results that compare very well with the experimental data for both stainless steels at initial temperature range of 77–1000K and strain rates between 0.001 and 8000s−1. The effect of the physical quantities at the microstructures on the overall flow stress is also investigated. The evolution of dislocation density along with the initial dislocation density contribution plays a crucial role in determining the thermal stresses. It was observed that the thermal yield stress component is more affected by the presence of initial dislocations and decreases with the increase of the originated (initial) dislocation density.
AbstractList	•Thermo-mechanical response of nitrogen-alloyed steels is studied at high strain rates.•A combined approach of two different principal mechanisms is considered in the constitutive modeling.•The flow stress was accurately predicted using microstructures-based material parameters.•Two different definitions for the strain hardening are considered.•The effect of the physical quantitates at the microstructures on the alloys’ response is investigated. In this paper, microstructures-based constitutive relations are introduced to simulate the thermo-mechanical response of two nitrogen-alloyed austenitic stainless steels; Nitronic-50 and Uranus-B66, under static and dynamic loadings. The simulation of the flow stress is developed based on a combined approach of two different principal mechanisms; the cutting of dislocation forests and the overcoming of Peierls–Nabarro barriers. The experimental observations for Nitronic-50 and Uranus-B66 conducted by Guo and Nemat-Nasser (2006) and Fréchard et al. (2008), respectively, over a wide range of temperatures and strain rates are also utilized in understanding the underlying deformation mechanisms. Results for the two stainless steels reveal that both the initial yielding and strain hardening are strongly dependent on the coupling effect of temperatures and strain rates. The methodology of obtaining the material parameters and their physical interpretation are presented thoroughly. The present model predicts results that compare very well with the experimental data for both stainless steels at initial temperature range of 77–1000K and strain rates between 0.001 and 8000s−1. The effect of the physical quantities at the microstructures on the overall flow stress is also investigated. The evolution of dislocation density along with the initial dislocation density contribution plays a crucial role in determining the thermal stresses. It was observed that the thermal yield stress component is more affected by the presence of initial dislocations and decreases with the increase of the originated (initial) dislocation density. In this paper, microstructures-based constitutive relations are introduced to simulate the thermo-mechanical response of two nitrogen-alloyed austenitic stainless steels; Nitronic-50 and Uranus-B66, under static and dynamic loadings. The simulation of the flow stress is developed based on a combined approach of two different principal mechanisms; the cutting of dislocation forests and the overcoming of Peierls-Nabarro barriers. The experimental observations for Nitronic-50 and Uranus-B66 conducted by Guo and Nemat-Nasser (2006) and Frechard et al. (2008), respectively, over a wide range of temperatures and strain rates are also utilized in understanding the underlying deformation mechanisms. Results for the two stainless steels reveal that both the initial yielding and strain hardening are strongly dependent on the coupling effect of temperatures and strain rates. The methodology of obtaining the material parameters and their physical interpretation are presented thoroughly. The present model predicts results that compare very well with the experimental data for both stainless steels at initial temperature range of 77-1000K and strain rates between 0.001 and 8000s-1. The effect of the physical quantities at the microstructures on the overall flow stress is also investigated. The evolution of dislocation density along with the initial dislocation density contribution plays a crucial role in determining the thermal stresses. It was observed that the thermal yield stress component is more affected by the presence of initial dislocations and decreases with the increase of the originated (initial) dislocation density.
Author	Abed, Farid H. Ranganathan, Shivakumar I. Serry, Mohamed A.
Author_xml	– sequence: 1 givenname: Farid H. surname: Abed fullname: Abed, Farid H. email: fabed@aus.edu organization: Department of Civil Engineering, American University of Sharjah, 26666, United Arab Emirates – sequence: 2 givenname: Shivakumar I. surname: Ranganathan fullname: Ranganathan, Shivakumar I. organization: Department of Mechanical Engineering, Rowan University, Glassboro, NJ 08028, USA – sequence: 3 givenname: Mohamed A. surname: Serry fullname: Serry, Mohamed A. organization: Department of Mechanical Engineering, Rowan University, Glassboro, NJ 08028, USA
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Snippet	•Thermo-mechanical response of nitrogen-alloyed steels is studied at high strain rates.•A combined approach of two different principal mechanisms is considered... In this paper, microstructures-based constitutive relations are introduced to simulate the thermo-mechanical response of two nitrogen-alloyed austenitic...
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SubjectTerms	Austenitic stainless steels Computer simulation Constitutive modeling Corrosion resistant steels Dislocation density Flow stress Mathematical models Nitronic-50 Stainless steel Stainless steels Strain rate Temperature Uranus-B66 Yield strength
Title	Constitutive modeling of nitrogen-alloyed austenitic stainless steel at low and high strain rates and temperatures
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