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Evolution of Internal Stresses in the Plain Ferritic Steel Studied by Neutron Diffraction in Situ Upon Tensile Straining (Article No. 095407)

Publication at Faculty of Mathematics and Physics |
2009

Abstract

The present in situ neutron diffraction study aims to investigate the response of selected lattice planes in the polycrystalline material upon tensile loading. For this purpose, the 0.1C-0.4Mn construction steel was selected as a simple model material.

The tensile deformation test was performed in the incremental mode in which each individual deformation step was followed by unloading. The neutron diffraction spectra were collected both upon loading and unloading and the behavior of the diffraction profiles in the elastic as well as in the plastic region of the deformation curve was examined in detail.

The estimate of microstrain evolution was done by using the single-line profile analysis method. Comparison of microstrain values in the loaded/unloaded state and in the elastic and plastic regions offers an interesting possibility to estimate the contribution of the type II and type III microstrains.