Add to ORKGEffect of asymmetric rolling with cone-shaped rolls (ARCSR) on the evolution of microstructure of low-carbon steel was investigated. Steel containing 0,15 % C (wt. %) billet with initial grain size of 60 μm was deformed up to thickness of 5 mm with diameters ratio of 1,5, as well as in cylindrical rolls. Rolling was conducted at three different temperatures: 900 °C, 1 000 °C and 1 100 °C. Final thickness is obtained through four passes of ARCSR with total reduction of 61,7 %. It has been shown during ARCSR at 900 °C grain size is relatively smaller (0,092 μm – surface layer and 0,112 μm – middle layer)
Asymmetric rolling (ASR) is a promising method for introducing shear deformation throughout the thic...
Materials with ultrafine-grained structure and unique physical and mechanical properties can be obta...
Optimisation of the physical and mechanical properties of cold rolled thin strips is achieved by con...
Effect of asymmetric rolling with cone-shaped rolls (ARCSR) on the evolution of microstructure of lo...
In this study, it is shown that a close to ideal shear texture can be formed throughout the th...
Multi-pass rolling was carried out on extra-low carbon steel at room temperature by imposing differe...
A low carbon steel was processed by Cold Rolling (CR) and Asymmetrical Rolling (ASR) at room tempera...
A low carbon steel was processed by Cold Rolling (CR) and Asymmetrical Rolling (ASR) at room tempera...
Multi-pass rolling was carried out on extra-low carbon steel at room temperature by imposing differe...
Multi-pass rolling was carried out on extra-low carbon steel at room temperature by imposing differe...
Systematic single pass rolling experiments were carried out at room temperature on extra low carbon ...
International audienceSimple shear tests are performed on low carbon steel pre-deformed in conventio...
The deformation and fracture mechanisms of a low carbon microalloyed steel processed by asymmetric r...
In the most recent years the asymmetric rolling (AR) attracts attention of researchers and technolog...
The relevance of the study is proved by two factors. One of them is the necessity to study the natur...
Asymmetric rolling (ASR) is a promising method for introducing shear deformation throughout the thic...
Materials with ultrafine-grained structure and unique physical and mechanical properties can be obta...
Optimisation of the physical and mechanical properties of cold rolled thin strips is achieved by con...
Effect of asymmetric rolling with cone-shaped rolls (ARCSR) on the evolution of microstructure of lo...
In this study, it is shown that a close to ideal shear texture can be formed throughout the th...
Multi-pass rolling was carried out on extra-low carbon steel at room temperature by imposing differe...
A low carbon steel was processed by Cold Rolling (CR) and Asymmetrical Rolling (ASR) at room tempera...
A low carbon steel was processed by Cold Rolling (CR) and Asymmetrical Rolling (ASR) at room tempera...
Multi-pass rolling was carried out on extra-low carbon steel at room temperature by imposing differe...
Multi-pass rolling was carried out on extra-low carbon steel at room temperature by imposing differe...
Systematic single pass rolling experiments were carried out at room temperature on extra low carbon ...
International audienceSimple shear tests are performed on low carbon steel pre-deformed in conventio...
The deformation and fracture mechanisms of a low carbon microalloyed steel processed by asymmetric r...
In the most recent years the asymmetric rolling (AR) attracts attention of researchers and technolog...
The relevance of the study is proved by two factors. One of them is the necessity to study the natur...
Asymmetric rolling (ASR) is a promising method for introducing shear deformation throughout the thic...
Materials with ultrafine-grained structure and unique physical and mechanical properties can be obta...
Optimisation of the physical and mechanical properties of cold rolled thin strips is achieved by con...