Precipitation is one of the most important influences on microstructural evolution during thermomechanical processing (TMCP) of micro-alloyed steels. Due to precipitation, pinning of prior austenite grain (PAG) boundaries can occur. To understand the mechanisms in detail and in relation to the thermomechanical treatment, a local characterization of the precipitation state depending on the microstructure is essential. Commonly used methods for the characterization, such as transmission electron microscopy (TEM) or matrix dissolution techniques, only have the advantage of local or statistically secured characterization. By using scanning electron microscopy (SEM) and atomic force microscopy (AFM) techniques, both advantages could be combined....
Grain oriented (GO) electrical steels are used in transformers and high strength low alloy (HSLA) st...
The effect of deformation temperature on Nb solute clustering, precipitation and the kinetics of aus...
Particle number densities are a crucial parameter in the microstructure engineering of microalloyed ...
Precipitation is one of the most important influences on microstructural evolution during thermomech...
The microalloying with niobium (Nb) and titanium (Ti) is standardly applied in low carbon steel high...
During this study, the correlation between the evolution of the prior austenitic grain size and of t...
During this study, the correlation between the evolution of the prior austenitic grain size and of t...
Precipitation behaviour in Ti-Mo microalloyed steels during isothermal holding has been investigated...
Mechanical properties of microalloyed steels are enhanced by fine precipitates, that ensure grain gr...
High strength micro-alloyed steels are used extensively in a number of industries such as car manufa...
The temperature at which thermomechanical controlled processing is undertaken strongly influences st...
Low carbon microalloyed steels show interesting commercial possibilities by combining different “mic...
A good combination of strength and toughness in HSLA steels can be achieved by the addition of micro...
Grain oriented (GO) electrical steels are used in transformers and high strength low alloy (HSLA) st...
The effect of deformation temperature on Nb solute clustering, precipitation and the kinetics of aus...
Particle number densities are a crucial parameter in the microstructure engineering of microalloyed ...
Precipitation is one of the most important influences on microstructural evolution during thermomech...
The microalloying with niobium (Nb) and titanium (Ti) is standardly applied in low carbon steel high...
During this study, the correlation between the evolution of the prior austenitic grain size and of t...
During this study, the correlation between the evolution of the prior austenitic grain size and of t...
Precipitation behaviour in Ti-Mo microalloyed steels during isothermal holding has been investigated...
Mechanical properties of microalloyed steels are enhanced by fine precipitates, that ensure grain gr...
High strength micro-alloyed steels are used extensively in a number of industries such as car manufa...
The temperature at which thermomechanical controlled processing is undertaken strongly influences st...
Low carbon microalloyed steels show interesting commercial possibilities by combining different “mic...
A good combination of strength and toughness in HSLA steels can be achieved by the addition of micro...
Grain oriented (GO) electrical steels are used in transformers and high strength low alloy (HSLA) st...
The effect of deformation temperature on Nb solute clustering, precipitation and the kinetics of aus...
Particle number densities are a crucial parameter in the microstructure engineering of microalloyed ...