Work Hardening in Ferritic Steel Containing Ultra-fine Carbides

Abstract: Synopsis : Work hardening of ferritic steels containing fine carbides varied from 3 nm to 15 nm was investigated and compared to Ashby's model, which is well known as a work hardening theory of metals containing hard particles. A specific work hardening behavior was observed in the steels strengthened by the nanometer-sized carbides; work hardening proceeded in two stages within a few plastic strains. In the former step, the matrix deformed without the geometrically necessary dislocation since a misfit strain … Show more

“…First of all, there is a lack of clear scientific ideas about the regularities in the formation of a thermally stable system of nanoscale interphase precipitates playing a key role in providing an array of properties of steel. Few investigations have been devoted to a theoretical investigation of this problem [20][21][22][23][24][25]. On the other hand, the results of experimental studies [26][27][28] indicate the possibility of a significant increase in the indicators of strength, plasticity, and stamping of steel of this type while using an extremely economical alloying system.…”

Promising directions of increasing the properties of steel

“…First of all, there is a lack of clear scientific ideas about the regularities in the formation of a thermally stable system of nanoscale interphase precipitates playing a key role in providing an array of properties of steel. Few investigations have been devoted to a theoretical investigation of this problem [20][21][22][23][24][25]. On the other hand, the results of experimental studies [26][27][28] indicate the possibility of a significant increase in the indicators of strength, plasticity, and stamping of steel of this type while using an extremely economical alloying system.…”

Promising directions of increasing the properties of steel