Based on the measurement of roll forces during the laboratory hot rolling of flat samples graded in thickness, the new phenomenological type of mean flow stress model was developed and applied on plain-carbon and HSLA steels. The obtained models describe with a very good accuracy the hot deformation resistance characteristics in the temperature range 1123 to 1463 K, large effective strain, and strain rate in the useful range of approximately 10 to 100 s−1. Difficulty in the mathematical description of the influence of temperature on mean flow stress in the wide range of temperature by a single equation was solved by introducing another constant in the temperature member of the conventional model. The newly proposed model solves by phenomeno...
A mathematical model has been developed to predict the temperature distribution through a slab durin...
The flow behaviour of a ferritic stainless steel (FSS) was investigated by a Gleeble 3500 thermal-me...
There the simulator to predict the number of stress-strain properties of steels from the basic range...
Local strain rates that occur during hot rolling of steel can range from very small up to rates abov...
Mean Flow Stress (MFS) of micro-alloyed high strength steels during plate rolling has been thorough ...
In materials processing, practical understanding of materials behavior at elevated temperatures and ...
Accuracy and reliability of numerical simulation of hot rolling processes are dependent on a suitabl...
A complete mathematical model for implementing the VGR process (a flat rolling process for producing...
The deformation that occurs in the roll bite during the hot rolling of steel, particularly the strai...
The high temperature workability of a 1%C–1.5%Cr steel was investigated by means of torsion experi- ...
A viscoplastic constitutive model, coded as a User Material subroutine (UMAT) for use with the ABAQU...
In order to develop reliable constitutive equations for the simulation, the hot deformation behavior...
The constitutive behavior of a medium carbon microalloyed steel during hot working over a wide range...
A mathematical model has been used to calculate the roll force and torque produced under a wide rang...
An austenitic stainless steel was deformed in torsion over a temperature range of 900-1200 °C us...
A mathematical model has been developed to predict the temperature distribution through a slab durin...
The flow behaviour of a ferritic stainless steel (FSS) was investigated by a Gleeble 3500 thermal-me...
There the simulator to predict the number of stress-strain properties of steels from the basic range...
Local strain rates that occur during hot rolling of steel can range from very small up to rates abov...
Mean Flow Stress (MFS) of micro-alloyed high strength steels during plate rolling has been thorough ...
In materials processing, practical understanding of materials behavior at elevated temperatures and ...
Accuracy and reliability of numerical simulation of hot rolling processes are dependent on a suitabl...
A complete mathematical model for implementing the VGR process (a flat rolling process for producing...
The deformation that occurs in the roll bite during the hot rolling of steel, particularly the strai...
The high temperature workability of a 1%C–1.5%Cr steel was investigated by means of torsion experi- ...
A viscoplastic constitutive model, coded as a User Material subroutine (UMAT) for use with the ABAQU...
In order to develop reliable constitutive equations for the simulation, the hot deformation behavior...
The constitutive behavior of a medium carbon microalloyed steel during hot working over a wide range...
A mathematical model has been used to calculate the roll force and torque produced under a wide rang...
An austenitic stainless steel was deformed in torsion over a temperature range of 900-1200 °C us...
A mathematical model has been developed to predict the temperature distribution through a slab durin...
The flow behaviour of a ferritic stainless steel (FSS) was investigated by a Gleeble 3500 thermal-me...
There the simulator to predict the number of stress-strain properties of steels from the basic range...