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On the Prediction of the Flow Behavior of Metals and Alloys at a Wide Range of Temperatures and Strain Rates Using Johnson–Cook and Modified Johnson–Cook-Based Models: A Review

Abdallah Shokry, Samer Gowid, Hasan Mulki, Ghias Kharmanda

2023Materials74 citationsDOIOpen Access PDF

Abstract

This paper reviews the flow behavior and mathematical modeling of various metals and alloys at a wide range of temperatures and strain rates. Furthermore, it discusses the effects of strain rate and temperature on flow behavior. Johnson-Cook is a strong phenomenological model that has been used extensively for predictions of the flow behaviors of metals and alloys. It has been implemented in finite element software packages to optimize strain, strain rate, and temperature as well as to simulate real behaviors in severe conditions. Thus, this work will discuss and critically review the well-proven Johnson-Cook and modified Johnson-Cook-based models. The latest model modifications, along with their strengths and limitations, are introduced and compared. The coupling effect between flow parameters is also presented and discussed. The various methods and techniques used for the determination of model constants are highlighted and discussed. Finally, future research directions for the mathematical modeling of flow behavior are provided.

Topics & Concepts

Flow (mathematics)Strain rateRange (aeronautics)Materials sciencePhenomenological modelCoupling (piping)MechanicsVolumetric flow rateThermodynamicsMechanical engineeringStatistical physicsComputer sciencePhysicsEngineeringMetallurgyComposite materialCondensed matter physicsMetallurgy and Material FormingHigh-Velocity Impact and Material BehaviorMicrostructure and mechanical properties
On the Prediction of the Flow Behavior of Metals and Alloys at a Wide Range of Temperatures and Strain Rates Using Johnson–Cook and Modified Johnson–Cook-Based Models: A Review | Litcius