Low carbon steel AISI 10 was subjected to a severe plastic deformation technique called Equal Angular Channel Pressing (ECAP) at different increased temperatures. The steel was subjected to ECAP with channel’s angle j = 90°, at different temperature in range of 150 - 300 °C. The number of passes at each temperature was N = 3. Light, scanning electron microscopy (SEM) and transmission electron microscopy (TEM) of thin foils were used to study the formation of substructure and ultrafine grains in deformed specimens. The size of newly born polygonized grains (subgrains and/or submicrocrystalline grains) is in range of 300 - 500 mm. The formation of such of predominant submicrocrystalline structure resulted in significant increase of yield stre...
The dynamic deformation behavior of ultrafine-grained low-carbon steels fabricated by equal-channel ...
Microstructures and mechanical properties of ultra fine-grained low carbon steels fabricated by equa...
The structural transformation and mechanical properties of a low-carbon 0.2% C steel and a 0.09% C-M...
Low carbon steel AISI 10 was subjected to a severe plastic deformation technique called Equal Angula...
An ultrafine-grained low carbon steel (Fe–0.15 wt.% C–0.52 wt.% Mn) was fabricated by equal channel ...
金沢大学大学院自然科学研究科In the present study, ultra fine-grained low carbon steel samples were processed by eq...
Grain refinement is a useful method to improve the strength and toughness of steels without changing...
The article presents results of investigation of structure and properties of low-carbon steel grade ...
The structure and properties of 0,14% C and 0,1% C - B low-carbon steels taken in two initial states...
Finish rolling of low carbon strip below Ars has been found to offer a number of advantages during s...
The aim of this work is to obtain uniform ultrafine structure providing enhancement of mechanical pr...
This master thesis deals with the research to the effects of severe plastic deformation on the devel...
A low-carbon steel containing 0.08% C was processed by Equal-Channel Angular Pressing (ECAP) with th...
The aim of this paper is to consider the features of structure evolution during severe plastic defor...
In the last years, ultrafine grained materials have attracted considerable research interest because...
The dynamic deformation behavior of ultrafine-grained low-carbon steels fabricated by equal-channel ...
Microstructures and mechanical properties of ultra fine-grained low carbon steels fabricated by equa...
The structural transformation and mechanical properties of a low-carbon 0.2% C steel and a 0.09% C-M...
Low carbon steel AISI 10 was subjected to a severe plastic deformation technique called Equal Angula...
An ultrafine-grained low carbon steel (Fe–0.15 wt.% C–0.52 wt.% Mn) was fabricated by equal channel ...
金沢大学大学院自然科学研究科In the present study, ultra fine-grained low carbon steel samples were processed by eq...
Grain refinement is a useful method to improve the strength and toughness of steels without changing...
The article presents results of investigation of structure and properties of low-carbon steel grade ...
The structure and properties of 0,14% C and 0,1% C - B low-carbon steels taken in two initial states...
Finish rolling of low carbon strip below Ars has been found to offer a number of advantages during s...
The aim of this work is to obtain uniform ultrafine structure providing enhancement of mechanical pr...
This master thesis deals with the research to the effects of severe plastic deformation on the devel...
A low-carbon steel containing 0.08% C was processed by Equal-Channel Angular Pressing (ECAP) with th...
The aim of this paper is to consider the features of structure evolution during severe plastic defor...
In the last years, ultrafine grained materials have attracted considerable research interest because...
The dynamic deformation behavior of ultrafine-grained low-carbon steels fabricated by equal-channel ...
Microstructures and mechanical properties of ultra fine-grained low carbon steels fabricated by equa...
The structural transformation and mechanical properties of a low-carbon 0.2% C steel and a 0.09% C-M...