Add to ORKGThe influence of deformation temperature and strain rate on the mechanisms of elongated fine grain (EFG) formation in the medium-carbon steel was studied. Compression tests were carried out at the temperatures in range of 673-973K at three different strain rates: 10-2, 1.3*10-3 and 10-4 s-1. Presence of two temperature intervals with different dominant mechanisms of deformation was identified: low temperature (673-823K) interval and high temperature (873-973K) interval. Microstructure evolution during deformation at strain rate of 1.3*10-3 s-1 and different temperatures was studied. Also was investigated the microstructure and mechanical properties of steel after warm plastic deformatio
This paper discusses results of experimental research and a model implementation of the hot deformat...
The deformation mechanism of a medium-Mn advanced high strength steel (AHSS) over a temperature rang...
Hot rolled ultra low carbon steel was deformed at different strain, strain rate and temperatures. Th...
The influence of deformation temperature and strain rate on the mechanisms of elongated fine grain (...
In this study, medium-carbon steel was subjected to warm deformation experiments on a Gleeble 3500 t...
Ultrafine grained structure formed dynamically through a severe warm deformation in the temperature ...
This work addresses the influence of deformation temperature in a range from −40°C to 200°C on the m...
Dilatometric techniques were used to determine the start and finish transformation heating temperatu...
This paper presents the influence of warm working parameters (temperature and strain rate) on deform...
Dilatometric techniques were used to determine the start and finish transformation heating temperatu...
The paper presents results of experimental research and a model implementation of hot deformation pr...
During forging and machining manufacturing processes, the material is subject to large strains at hi...
Influence of temperature scheme on the microstructure and properties variation of medium carbon stee...
Abstract. By application of thermomechanical controlled rolling and accelerated cooling, the ferrite...
The microstructure evolution and mechanical behavior during large strain of a 0.16%C-Mn steel has be...
This paper discusses results of experimental research and a model implementation of the hot deformat...
The deformation mechanism of a medium-Mn advanced high strength steel (AHSS) over a temperature rang...
Hot rolled ultra low carbon steel was deformed at different strain, strain rate and temperatures. Th...
The influence of deformation temperature and strain rate on the mechanisms of elongated fine grain (...
In this study, medium-carbon steel was subjected to warm deformation experiments on a Gleeble 3500 t...
Ultrafine grained structure formed dynamically through a severe warm deformation in the temperature ...
This work addresses the influence of deformation temperature in a range from −40°C to 200°C on the m...
Dilatometric techniques were used to determine the start and finish transformation heating temperatu...
This paper presents the influence of warm working parameters (temperature and strain rate) on deform...
Dilatometric techniques were used to determine the start and finish transformation heating temperatu...
The paper presents results of experimental research and a model implementation of hot deformation pr...
During forging and machining manufacturing processes, the material is subject to large strains at hi...
Influence of temperature scheme on the microstructure and properties variation of medium carbon stee...
Abstract. By application of thermomechanical controlled rolling and accelerated cooling, the ferrite...
The microstructure evolution and mechanical behavior during large strain of a 0.16%C-Mn steel has be...
This paper discusses results of experimental research and a model implementation of the hot deformat...
The deformation mechanism of a medium-Mn advanced high strength steel (AHSS) over a temperature rang...
Hot rolled ultra low carbon steel was deformed at different strain, strain rate and temperatures. Th...