A new constitutive equation is developed to model the flow stress on a metal surface undergone high speed impacts that result in strain hardening. The new equation is based on the Johnson-Cook model and has considered the effects of strain, strain rate, grain refinement, twin formation and twin spacing. Two mechanisms for the strain hardening are proposed: Grain refinement or twin formation, depending on the strain rate. At low strain rate, the Hall-Petch relation is obeyed, while at high strain rate, the flow stress is controlled by the formation of deformation twins. The theoretical estimation of flow stress agrees well with experimental data for stainless steel 304. According to the new model, the flow stress can be as high as 1.46 GPa a...
In order to develop reliable constitutive equations for the simulation, the hot deformation behavior...
A new constitutive model based on the combination of the Garofalo and Hensel-Spittel equations has b...
Development and validation of constitutive models for polycrystalline materials subjected to high st...
In several industrial applications, metallic structures are facing impact loads. Therefore, there is...
The commonly employed mathematical functions in constitutive models, such as the strain hardening/so...
The flow behavior of 5754 aluminum alloy was researched using the plane strain compression test for ...
An austenitic stainless steel was deformed in torsion over a temperature range of 900-1200 °C us...
[IF=3.17]International audienceThe development of sound constitutive descriptions able to predict ac...
We develop a new flow model based on the Swift method, which is both versatile and accurate when use...
A comprehensive knowledge about the material flow stress is a key parameter for a reliable design of...
The design of industrial hot metal forming processes nowadays is mostly carried out using commercial...
In this work, a new model is proposed for predicting stress transients caused by strain path changes...
This work develops an elastic-viscoplastic constitutive formulation to the mechanical behavior of po...
We present a model of metallic plastic flow suitable for numerical simulations of explosive loading ...
High-temperature plastic flow is the underlying process that governs the product quality in many adv...
In order to develop reliable constitutive equations for the simulation, the hot deformation behavior...
A new constitutive model based on the combination of the Garofalo and Hensel-Spittel equations has b...
Development and validation of constitutive models for polycrystalline materials subjected to high st...
In several industrial applications, metallic structures are facing impact loads. Therefore, there is...
The commonly employed mathematical functions in constitutive models, such as the strain hardening/so...
The flow behavior of 5754 aluminum alloy was researched using the plane strain compression test for ...
An austenitic stainless steel was deformed in torsion over a temperature range of 900-1200 °C us...
[IF=3.17]International audienceThe development of sound constitutive descriptions able to predict ac...
We develop a new flow model based on the Swift method, which is both versatile and accurate when use...
A comprehensive knowledge about the material flow stress is a key parameter for a reliable design of...
The design of industrial hot metal forming processes nowadays is mostly carried out using commercial...
In this work, a new model is proposed for predicting stress transients caused by strain path changes...
This work develops an elastic-viscoplastic constitutive formulation to the mechanical behavior of po...
We present a model of metallic plastic flow suitable for numerical simulations of explosive loading ...
High-temperature plastic flow is the underlying process that governs the product quality in many adv...
In order to develop reliable constitutive equations for the simulation, the hot deformation behavior...
A new constitutive model based on the combination of the Garofalo and Hensel-Spittel equations has b...
Development and validation of constitutive models for polycrystalline materials subjected to high st...