Add to ORKGOptimal quench uniformity is essential for the minimization of the potential for cracking, distortion, residual stress. Computer simulation of quench processes provides valuable information to avoid quench cracking, to control distortion and to have optimal metallurgical and mechanical properties. In this study, internal and residual stress states together with microstructural evolution in quenched C60 steel cylinders are analyzed numerically. In the numerical analysis, finite element method is applied and both temperature gradients and phase transformations are considered
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
Numerical and experimental studies have been carried out to investigate the evolution of residual st...
In this study, the internal and residual stress states in quenched C60 steel cylinders are analyzed ...
Numerical and experimental studies have been carried out to investigate the evolution of residual st...
In this study, an efficient finite element model for predicting the temperature field, volume fracti...
The finite element method (FEM) is employed to investigate the residual stress state and the variat...
A finite element model capable of predicting the temperature history, evolution of microstructure an...
During quench hardening of steel components, obtaining the desired distribution of microstructure an...
During thermal processing, parts are usually subjected to continuous heating and cooling cycles duri...
During thermal processing, parts are usually subjected to continuous heating and cooling cycles duri...
Machine components made of steel are subjected to heat treatment processes for improving mechanical ...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
Considerable residual stresses may form during quenching due to the differential cooling and the inc...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
Numerical and experimental studies have been carried out to investigate the evolution of residual st...
In this study, the internal and residual stress states in quenched C60 steel cylinders are analyzed ...
Numerical and experimental studies have been carried out to investigate the evolution of residual st...
In this study, an efficient finite element model for predicting the temperature field, volume fracti...
The finite element method (FEM) is employed to investigate the residual stress state and the variat...
A finite element model capable of predicting the temperature history, evolution of microstructure an...
During quench hardening of steel components, obtaining the desired distribution of microstructure an...
During thermal processing, parts are usually subjected to continuous heating and cooling cycles duri...
During thermal processing, parts are usually subjected to continuous heating and cooling cycles duri...
Machine components made of steel are subjected to heat treatment processes for improving mechanical ...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
Considerable residual stresses may form during quenching due to the differential cooling and the inc...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...
A mathematical model to calculate the build-up of residual stresses during quenching of carbon (AISI...