Microalloyed steels offer a good combination of desirable mechanical properties by fine-tuning grain growth and recrystallization dynamics while keeping the carbon content low for good weldability. In this work, the dislocation density evolution during hot rolling was correlated by materials modeling with flow curves. Single-hit compression tests at different temperatures and strain rates were performed with varying isothermal holding times prior to deformation to achieve different precipitation stages. On the basis of these experimental results, the dislocation density evolution was evaluated using a recently developed semi-empirical state-parameter model implemented in the software MatCalc. The yield stress at the beginning of the deforma...
The hot deformation behavior of 718Plus is modeled through a physically based hybrid dislocation den...
Double compression tests were performed on a Gleeble-3800 thermomechanical simulator to study the so...
Dynamic recrystallization (DRX) is the predominant softening mechanism under high-temperature large-...
The relationship between microstructure and flow behaviour has attracted attention from many researc...
Based on Dutta and Sellars's expression for the start of strain-induced precipitation in microa...
Based on Dutta and Sellars's expression for the start of strain-induced precipitation in microalloye...
This paper discusses results of experimental research and a model implementation of the hot deformat...
Accuracy and reliability of numerical simulation of hot rolling processes are dependent on a suitabl...
A mathematical model has been developed which describes the hot deformation and recrystallization be...
Stress relaxation taking place after hot deformation is modelled by incorporating the simultaneous a...
The design of industrial hot metal forming processes nowadays is mostly carried out using commercial...
A simple mathematical model has been developed which describes the flow curve behavior up to the pea...
Recently, severe plastic deformation induced microstructure evolution has been studied through exten...
Constitutive models that reflect the microstructure evolution is of great significance to accurately...
The constitutive behavior of a medium carbon microalloyed steel during hot working over a wide range...
The hot deformation behavior of 718Plus is modeled through a physically based hybrid dislocation den...
Double compression tests were performed on a Gleeble-3800 thermomechanical simulator to study the so...
Dynamic recrystallization (DRX) is the predominant softening mechanism under high-temperature large-...
The relationship between microstructure and flow behaviour has attracted attention from many researc...
Based on Dutta and Sellars's expression for the start of strain-induced precipitation in microa...
Based on Dutta and Sellars's expression for the start of strain-induced precipitation in microalloye...
This paper discusses results of experimental research and a model implementation of the hot deformat...
Accuracy and reliability of numerical simulation of hot rolling processes are dependent on a suitabl...
A mathematical model has been developed which describes the hot deformation and recrystallization be...
Stress relaxation taking place after hot deformation is modelled by incorporating the simultaneous a...
The design of industrial hot metal forming processes nowadays is mostly carried out using commercial...
A simple mathematical model has been developed which describes the flow curve behavior up to the pea...
Recently, severe plastic deformation induced microstructure evolution has been studied through exten...
Constitutive models that reflect the microstructure evolution is of great significance to accurately...
The constitutive behavior of a medium carbon microalloyed steel during hot working over a wide range...
The hot deformation behavior of 718Plus is modeled through a physically based hybrid dislocation den...
Double compression tests were performed on a Gleeble-3800 thermomechanical simulator to study the so...
Dynamic recrystallization (DRX) is the predominant softening mechanism under high-temperature large-...