Add to ORKGA review of papers on martensitic transformations is presented. To clarify the martensite nucleation mechanism in iron-carbon steels on the basis of the currently established understanding is the main purpose of the review. The martensitic transformation is one of the main types of phase transformations in the solid state which is observed in materials with different nature. Need for a thorough and comprehensive analysis of the structural states formed during steel quenching is determined by its scientific and applied relevance. The martensitic transformation models are presented and critically discussed. The transformation features inherent martensite nucleation in steel are marked. The specific model reconstructions of crystal lattices ar...
The steel has been rapidly quenched. This leads to a rapid volume change due to thermal expansion. I...
The nucleation mechanisms during solid-state phase transformations in polycrystalline materials are ...
The progress of martensite formation in plain carbon steels Fe-0.46C, Fe-0.66C, and Fe-0.80C has bee...
This work initially reviews fundamental aspects of nucleation and growth of martensite. Next, based ...
This chapter describes the unique features of martensitic transformations in steels. It covers the c...
When a solid such as iron is cooled across a structural transition, its final microstructure depends...
Despite the fact that scientists have been studying the nature of the mechanism of martensite format...
The role of dislocations and the dynamical mechanism controlling the structural reconstruction in th...
Massachusetts Institute of Technology. Dept. of Metallurgy and Materials Science. Thesis. 1974. Sc.D...
The role of dislocations and the dynamical mechanism controlling the structural reconstruction in th...
This work is concerned with two often separated disciplines. First, experimental studies in which th...
Abstract. The role of dislocations and the dynamical mechanism controlling the structural reconstruc...
The transformation of austenite to martensite and the tempering of martensite in iron-carbon system,...
Mainly two different morphologies of martensite can be obtained in steels depending on the amount of...
The steel has been rapidly quenched. This leads to a rapid volume change due to thermal expansion. I...
The steel has been rapidly quenched. This leads to a rapid volume change due to thermal expansion. I...
The nucleation mechanisms during solid-state phase transformations in polycrystalline materials are ...
The progress of martensite formation in plain carbon steels Fe-0.46C, Fe-0.66C, and Fe-0.80C has bee...
This work initially reviews fundamental aspects of nucleation and growth of martensite. Next, based ...
This chapter describes the unique features of martensitic transformations in steels. It covers the c...
When a solid such as iron is cooled across a structural transition, its final microstructure depends...
Despite the fact that scientists have been studying the nature of the mechanism of martensite format...
The role of dislocations and the dynamical mechanism controlling the structural reconstruction in th...
Massachusetts Institute of Technology. Dept. of Metallurgy and Materials Science. Thesis. 1974. Sc.D...
The role of dislocations and the dynamical mechanism controlling the structural reconstruction in th...
This work is concerned with two often separated disciplines. First, experimental studies in which th...
Abstract. The role of dislocations and the dynamical mechanism controlling the structural reconstruc...
The transformation of austenite to martensite and the tempering of martensite in iron-carbon system,...
Mainly two different morphologies of martensite can be obtained in steels depending on the amount of...
The steel has been rapidly quenched. This leads to a rapid volume change due to thermal expansion. I...
The steel has been rapidly quenched. This leads to a rapid volume change due to thermal expansion. I...
The nucleation mechanisms during solid-state phase transformations in polycrystalline materials are ...
The progress of martensite formation in plain carbon steels Fe-0.46C, Fe-0.66C, and Fe-0.80C has bee...