Comparative study on the effect of (Cr, Mo, V)-alloying on transformation and mechanical behavior of 0.2 wt.% C TRIP-assisted steel

The structure and mechanical properties of two 0.2 wt.% C TRIP-assisted steels (Transformation Induced Plasticity) were compared to evaluate the effect of additional (Cr, Mo, V)-alloying on transformation kinetic and tensile/impact behavior after isothermal bainite transformation (bainitizing) and Q&P (Quenching-and-Partitioning) treatment. The work was performed using SEM, XRD, tensile/impact testing, and computer simulation. It was found that adding 0.55 wt.% Cr, 0.2 wt.% Mo, and 0.11 wt.% V into Mn-Si-Nb steel increased the incubation time in pearlite and bainite temperature ranges by 5.6 and 4.4 times, respectively. More heavily alloyed steel performed an improved combination ???Strength/Ductility/Impact Toughness???: its maximum PSE (Product of Strength and Elongation) value of 24 GPa ?? % referred to bainitizing treatment, whereas the highest KCV20???C values (220???225 J cm???2) corresponded to Q&P treatment. Improved mechanical properties of (Cr, Mo, V)-alloyed steel were attributed to a higher amount of retained austenite and a slower rate of TRIP-effect.

Automated summary

This study compares the structure and mechanical properties of different alloyed steels to evaluate the effect of additional alloying elements on transformation kinetics and tensile/impact behavior. The results show that adding Cr, Mo, and V elements can increase the incubation time of pearlite and bainite, leading to improved mechanical properties and a better combination of strength and ductility/impact toughness.