Add to ORKGRecent advances in high resolution X-Ray methods that involve use of synchrotron facilities have made it possible to do high resolution, in-situ experimental studies of phase transformations in engineering materials thus providing detailed and accurate information on the processes that take place during such phase transformations. This paper describes how such facilities can be applied to study solidification of cast iron and formation of residual stress after eutectoid transformation by resolving the processes in 3D and time
Compacted graphite iron (CGI) is rapidly becoming an attractive alternative material for engine comp...
This manuscript summarizes recent investigation of the authors into the solidification and shrinkage...
Cast Iron, the first man – made composite, is at least 2500 year old. It remains the most important ...
Recent advances in high resolution X-Ray methods that involve use of synchrotron facilities have mad...
3D X-ray tomography recordings have been used to study graphite growth during solidification of duct...
Ductile cast irons (DCIs) are of increasing importance in the renewable energy and transportation se...
Recent experiments resolved nucleation and growth of graphite during solidification of ductile cast ...
In spite of many years of research, the physical phenomena leading to the evolution of compacted gra...
This study deals with the solidification and microsegregation processes of near eutectic ductile cas...
In cast iron, graphite develops in conjunction with the metallic matrix during solidification. The m...
When subjecting cast irons to mechanical loading the deformation and damage mechanisms occur on a mi...
Tailored heterogeneous distributions of microstructural features enable extraordinary material perfo...
Growth of graphite during solidification and high-temperature solid-state transformation has been in...
Austempered ductile iron (ADI) has a microstructure consisting mainly of high carbon austenite, bain...
The mechanistic understanding of the processing-structure-property relations in ductile iron is stil...
Compacted graphite iron (CGI) is rapidly becoming an attractive alternative material for engine comp...
This manuscript summarizes recent investigation of the authors into the solidification and shrinkage...
Cast Iron, the first man – made composite, is at least 2500 year old. It remains the most important ...
Recent advances in high resolution X-Ray methods that involve use of synchrotron facilities have mad...
3D X-ray tomography recordings have been used to study graphite growth during solidification of duct...
Ductile cast irons (DCIs) are of increasing importance in the renewable energy and transportation se...
Recent experiments resolved nucleation and growth of graphite during solidification of ductile cast ...
In spite of many years of research, the physical phenomena leading to the evolution of compacted gra...
This study deals with the solidification and microsegregation processes of near eutectic ductile cas...
In cast iron, graphite develops in conjunction with the metallic matrix during solidification. The m...
When subjecting cast irons to mechanical loading the deformation and damage mechanisms occur on a mi...
Tailored heterogeneous distributions of microstructural features enable extraordinary material perfo...
Growth of graphite during solidification and high-temperature solid-state transformation has been in...
Austempered ductile iron (ADI) has a microstructure consisting mainly of high carbon austenite, bain...
The mechanistic understanding of the processing-structure-property relations in ductile iron is stil...
Compacted graphite iron (CGI) is rapidly becoming an attractive alternative material for engine comp...
This manuscript summarizes recent investigation of the authors into the solidification and shrinkage...
Cast Iron, the first man – made composite, is at least 2500 year old. It remains the most important ...