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Changes of dislocation density and dislocation arrangement during tensile deformation in lath martensitic steels

ラスマルテンサイト鋼の引張変形中の転位密度及び転位アレンジの変化

Harjo, S.; 川崎 卓郎; 諸岡 聡

Harjo, S.; Kawasaki, Takuro; Morooka, Satoshi

To understand strengthening mechanism in lath martensitic steels, in situ neutron diffractions during tensile deformation for 22SiMn2TiB steel and Fe-18Ni alloy were performed using TAKUMI of J-PARC. Profile analyses were performed using Convolutional Multiple Whole Profile (CMWP) fitting and Williamson-Hall (W-H) methods. As results, the dislocation densities as high as 10$$^{15}$$ m$$^{-2}$$ in the as-quenched states of both steels were determined hardly to change or slightly increase by the CMWP method. The reliability of the dislocation density obtained from the W-H method was low, because the whole profile was not considered for the analysis. In the former method, the values of parameter M related to dislocations arrangement was found to decrease rapidly for both steels at the beginning of plastic deformation. Hence, high work hardening in the lath martensitic steels was considered due to the dislocations rearrangements with plastic deformation.

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