Abstract Effects of the grain size on the forming limits of stainless steel 316 L sheets are
investigated using crystal plasticity finite element method (CPFEM) by modeling of all grains …

Abstract Forming Limit Diagrams (FLDs) of 0.1 and 1 mm thick ultra-thin ferritic stainless
steel (FSS) sheets are predicted using a combination of the crystal plasticity finite element …

A crystal plasticity finite element analysis was conducted for predicting forming limits of a
ferritic stainless steel. A virtual microstructure crystal plasticity finite element model, or a …

This paper focuses on the study of 1010 steel sheet formability from a crystal plasticity
viewpoint. The study is divided into experimental and numerical parts. In the experimental …

In order to evaluate the surface quality of ferritic stainless steel (FSS) sheets tensile
deformation, a crystal plasticity (CP) model, in which the constitutive laws were incorporated …

Experimental and numerical study regarding the uniaxial tensile test and the forming limit
diagram are addressed in this paper for AL2024 with the face-centered cube structure. First …

A computationally efficient rate independent crystal plasticity finite element (CPFE) model
was used to predict the forming limit curve (FLC) for a multiphase advanced high strength …

A mesoscale model of plastic deformation of ferritic stainless steels (FSSs) is formulated by
combining a crystal plasticity finite element model with 3D cellular automaton algorithm. The …

In this study, a numerical simulation model based on crystal plasticity theories was
established in order to study the micro deep drawing (MDD) process of ferritic stainless steel …

In conventional sheet metal forming processes, such as stamping, application of a two-
dimensional (2D) plane stress yield function is sufficient as the out-of-plane stresses (σ zz, σ …