yield strength measurements, and structure-property relationships were used for a quantitative estimate of different Communications strengthening contributions. To begin with, a well-known empirical equation [7] served to calculate the contributions from chemical composition and ferrite grain size: YUN SOO LIM, Senior Researcher, and JOUNG SOO KIM, Project H-JK. The authors are grateful to COSIPA for supplying the
Transmission electron microscopy and microhardness measurements of individual ferrite grains were employed to investigate the state of interphase precipitation in commercial microalloyed steels. Interphase precipitation sheets tended to align parallel to the rolling plane, leading to frequent observation of particle row formation in longitudinal and transverse sample sections. As a rule, interphase precipitation occurred in some but not in all of the ferrite grains, thus limiting its contribution to the overall strength in comparison with carbonitride precipitation in austenite and dislocation hardening. In the particular case of a highly microalloyed Nb + Ti steel, interphase precipitation was present in about 50% of the ferrite grains. Interphase precipitation was also found to be associated with the loss of strength of as rolled steels due to normalising. In addition, arguments are presented to relate interphase precipitation to the effect of coiling temperature on as rolled strength.
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