Based on both linear and non-linear estimations of work hardening rate versus strain curves, two mathematical models have been developed to predict the flow curves under hot working conditions up to the peak. The models were tested for a mechanically alloyed Al6063/0.75Al2O3/0.75Y2O3 nanocomposite under different hot forming conditions. The predicted results from both models are found to be in accord with the experimental flow stress curves. However, the linear model (with an average error of 0.81%) predicted the flow stress more accurate than the non-linear model (with an average error of 1.94%)
A thorough understanding of hot deformation behavior plays a vital role in determining process param...
The complexity of hot deformation behaviours of metallic materials is acknowledged in decades of stu...
Finite element modeling allows the optimization of metalworking processes and enhances the quality o...
Based on both linear and non-linear estimations of work hardening rate versus strain curves, two mat...
Based on both linear and nonlinear estimations of work hardening rate versus strain curves, two math...
In order to improve the understanding of the hot flow behaviors of as-extruded 7050 aluminum alloy, ...
The aim of the present paper is to study the hot deformation behavior of two different Al alloys (AA...
The flow behavior of 5754 aluminum alloy was researched using the plane strain compression test for ...
In order to investigate the workability and to optimize the hot forming parameters for 2026 Al alloy...
The present work focuses on the prediction of the hot deformation behavior of thermo-mechanically pr...
Hot deformation behavior of a medium Cr/Mn Al6061 aluminum alloy was studied by isothermal compressi...
A new constitutive model based on the combination of the Garofalo and Hensel-Spittel equations has b...
A thorough understanding of hot deformation behavior plays a vital role in determining process param...
The complexity of hot deformation behaviours of metallic materials is acknowledged in decades of stu...
Finite element modeling allows the optimization of metalworking processes and enhances the quality o...
Based on both linear and non-linear estimations of work hardening rate versus strain curves, two mat...
Based on both linear and nonlinear estimations of work hardening rate versus strain curves, two math...
In order to improve the understanding of the hot flow behaviors of as-extruded 7050 aluminum alloy, ...
The aim of the present paper is to study the hot deformation behavior of two different Al alloys (AA...
The flow behavior of 5754 aluminum alloy was researched using the plane strain compression test for ...
In order to investigate the workability and to optimize the hot forming parameters for 2026 Al alloy...
The present work focuses on the prediction of the hot deformation behavior of thermo-mechanically pr...
Hot deformation behavior of a medium Cr/Mn Al6061 aluminum alloy was studied by isothermal compressi...
A new constitutive model based on the combination of the Garofalo and Hensel-Spittel equations has b...
A thorough understanding of hot deformation behavior plays a vital role in determining process param...
The complexity of hot deformation behaviours of metallic materials is acknowledged in decades of stu...
Finite element modeling allows the optimization of metalworking processes and enhances the quality o...