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Positron annihilation study of defects in martensite transformation of FeMn alloy
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AbstractIt has been observed that a small number of repetitions of the transformation by thermal cycling enhanced the formation of ϵ‐Martensite whereas a large number of repetitions of transformation decreased the amount of ϵ‐Martensite formed. PAT analysis and electron microscope show that a few repetitions of the transformation produced less defects, including vacancies and dislocations, whereas a large number of repetitions of transformation produced progressively more defects. The PAT analysis also shows that these accumulated defetcs are mainly dislocations, which form a network of dislocations or a Lomer‐Cottrell dislocation net. A small number of dislocations enhanced the nucleation of ϵ‐Martensite whereas a large number of dislocations prevented the nucleation. So the dislocations‐produced by cycling transformation thermally — has a great effect on the ϵ‐formation.
Title: Positron annihilation study of defects in martensite transformation of FeMn alloy
Description:
AbstractIt has been observed that a small number of repetitions of the transformation by thermal cycling enhanced the formation of ϵ‐Martensite whereas a large number of repetitions of transformation decreased the amount of ϵ‐Martensite formed.
PAT analysis and electron microscope show that a few repetitions of the transformation produced less defects, including vacancies and dislocations, whereas a large number of repetitions of transformation produced progressively more defects.
The PAT analysis also shows that these accumulated defetcs are mainly dislocations, which form a network of dislocations or a Lomer‐Cottrell dislocation net.
A small number of dislocations enhanced the nucleation of ϵ‐Martensite whereas a large number of dislocations prevented the nucleation.
So the dislocations‐produced by cycling transformation thermally — has a great effect on the ϵ‐formation.
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