The variations of the dislocation structures in the quench and 650℃ tempered steel with increase of elongations have been investigated by using transmission electron microscopy. In the small elongation stage, the bou...The variations of the dislocation structures in the quench and 650℃ tempered steel with increase of elongations have been investigated by using transmission electron microscopy. In the small elongation stage, the boundaries between ferrite and carbide in this steel can release dislocations. As the elongations increase, the moving dislocations in the ferrite slip onto the carbides. Then, the interaction between moving dislocations and dislocations released from this boundaries, and the interaction between the dislocations moving to the carbides in every slip plane occurs. Thereby, the dislocation tangles around the carbides can be formed. In the large elongation stage, the dislocation tangles with high dislocation density and the developed dislocation cells are formed.展开更多
The martensitic transformation in Fe-Cr-W-V-C alloy has been investigated by TEM.The habit plane of martensite is near (252)_f, the austenite/martensite orientation relationship is Kurdjumov-Sachs'.In the martensi...The martensitic transformation in Fe-Cr-W-V-C alloy has been investigated by TEM.The habit plane of martensite is near (252)_f, the austenite/martensite orientation relationship is Kurdjumov-Sachs'.In the martensite plates there are twins on (112)[ 1]_b,dislocation tangles and the lattice defects on (011)_b plane.In the austenite near the growing martensite plates,the dislocations with high density and stacking faults can be observed. The substructure of martensite may probably be the result of accommodation deformation during martensitic transformations.展开更多
文摘The variations of the dislocation structures in the quench and 650℃ tempered steel with increase of elongations have been investigated by using transmission electron microscopy. In the small elongation stage, the boundaries between ferrite and carbide in this steel can release dislocations. As the elongations increase, the moving dislocations in the ferrite slip onto the carbides. Then, the interaction between moving dislocations and dislocations released from this boundaries, and the interaction between the dislocations moving to the carbides in every slip plane occurs. Thereby, the dislocation tangles around the carbides can be formed. In the large elongation stage, the dislocation tangles with high dislocation density and the developed dislocation cells are formed.
文摘The martensitic transformation in Fe-Cr-W-V-C alloy has been investigated by TEM.The habit plane of martensite is near (252)_f, the austenite/martensite orientation relationship is Kurdjumov-Sachs'.In the martensite plates there are twins on (112)[ 1]_b,dislocation tangles and the lattice defects on (011)_b plane.In the austenite near the growing martensite plates,the dislocations with high density and stacking faults can be observed. The substructure of martensite may probably be the result of accommodation deformation during martensitic transformations.