Publication Abstract
Vanadium Effects on a BCC Iron 3(111)[1-10] Grain Boundary Strength
Kim, S., Kim, S., & Horstemeyer, M. (2011). Vanadium Effects on a BCC Iron 3(111)[1-10] Grain Boundary Strength. 2011 TMS Annual Meeting & Exhibition. San Diego, CA.
Abstract
The effects of micro-alloying element, vanadium, on a BCC Fe sigma 3
(111)[1-10] symmetric tilt grain boundary strength are studied using Density
Functional Theory calculations. The lowest energy configuration of the grain
boundary structure are obtained from the first-principles calculations. The
substitutional and interstitial point defect formation energies of vanadium in
the grain boundary are compared. The substitutional defect is prefered to
interstitial one. The segregation energies of vanadium onto the grain boundary
and its fractured surfaces are computed. The cohesive energy calculation of the
grain boundary with and without vanadium show that vanadium strengthen the
BCC iron grain boundary. The tensile and shear tests on the grain boundary with
and without vanadium segregation are carried out to study the vanadium effect
on the grain boundary.