The attainment of finer ferrite grain structure in low carbon is object of interest because significantly higher yield strengths and lower ductile-brittle transition temperatures can be predicted at the same time with ultra-fine grain sizes. This method is important as hardening mechanism in these steels when they are used in welding applications and is more expensive than employing high alloying steels
A novel single-pass hot strip rolling process has been developed in which ultra-fine (<2 μm) f...
A novel approach was used to produce an ultrafine grain structure in low carbon steels with a wide r...
An ultrafine-grained low carbon steel (Fe–0.15 wt.% C–0.52 wt.% Mn) was fabricated by equal channel ...
The attainment of finer ferrite grain structure in low carbon is object of interest because signific...
The attainment of finer ferrite grain structure in low carbon is object of interest because sig-nifi...
The ferrite grain size refining is the unique mechanism for increasing both mechanical strength and ...
The present work deals with grain refinement and austenite formation in a plain C-Mn steel with 0.17...
Abstract In this thesis, methods to process ultrafine ferritic (UFF) structures in steels, i.e. grai...
The low-temperature toughness of C-Mn weld steel with different grain sizes was investigated with no...
In the present study, the effect of nominal equivalent strain (between 0 and 1.2), deformation tempe...
In the present study, wedge-shaped samples were used to determine the effect of nominal equivalent s...
Ultrafine grained ferrite was obtained through tempering cold rolled martensite with an average grai...
This paper provides an overview on obtaining low-carbon ultra-fine grained dual-phase steels through...
This research investigated the mechanism responsible for the ductile to brittle transition temperatu...
Abstract. By application of thermomechanical controlled rolling and accelerated cooling, the ferrite...
A novel single-pass hot strip rolling process has been developed in which ultra-fine (<2 μm) f...
A novel approach was used to produce an ultrafine grain structure in low carbon steels with a wide r...
An ultrafine-grained low carbon steel (Fe–0.15 wt.% C–0.52 wt.% Mn) was fabricated by equal channel ...
The attainment of finer ferrite grain structure in low carbon is object of interest because signific...
The attainment of finer ferrite grain structure in low carbon is object of interest because sig-nifi...
The ferrite grain size refining is the unique mechanism for increasing both mechanical strength and ...
The present work deals with grain refinement and austenite formation in a plain C-Mn steel with 0.17...
Abstract In this thesis, methods to process ultrafine ferritic (UFF) structures in steels, i.e. grai...
The low-temperature toughness of C-Mn weld steel with different grain sizes was investigated with no...
In the present study, the effect of nominal equivalent strain (between 0 and 1.2), deformation tempe...
In the present study, wedge-shaped samples were used to determine the effect of nominal equivalent s...
Ultrafine grained ferrite was obtained through tempering cold rolled martensite with an average grai...
This paper provides an overview on obtaining low-carbon ultra-fine grained dual-phase steels through...
This research investigated the mechanism responsible for the ductile to brittle transition temperatu...
Abstract. By application of thermomechanical controlled rolling and accelerated cooling, the ferrite...
A novel single-pass hot strip rolling process has been developed in which ultra-fine (<2 μm) f...
A novel approach was used to produce an ultrafine grain structure in low carbon steels with a wide r...
An ultrafine-grained low carbon steel (Fe–0.15 wt.% C–0.52 wt.% Mn) was fabricated by equal channel ...