Coupled effects of the lattice rotation definition, twinning and interaction strength on the FCC rolling texture evolution using the viscoplastic ϕ-model

Prediction of the rolling texture evolution in FCC metals is controlled by interaction laws, deformation mechanisms and definition of the lattice spin. The coupled effect of these three factors on the FCC rolling texture evolution is hereby analyzed using the viscoplastic ϕϕ-model. Without the Eshelby theory, this model yields an interaction law spanning predicted results from the upper to lower bound ones by varying a scalar weight parameter ϕϕ (0<ϕ<10<ϕ<1). In this work, two definitions of the lattice spin, the mathematical analysis (MA) and the plane–strain analysis (PSA), are considered in the ϕϕ-model. The influence of the MA and PSA definitions on the FCC rolling texture evolution is deeply analyzed in conjunction with twinning and grain interaction strength, from a stiff to a more compliant interaction.

► Prediction of rolling texture transitions in FCC metals with the ϕ-model. ► Effect of the grain interaction strength on the FCC rolling texture evolution. ► Effect of mechanical twinning on the FCC rolling texture evolution. ► Effect of the lattice spin definition on the FCC rolling texture evolution.