We used micropillar compression experiments to study the plasticity of ferrite and martensite
of two commercial dual phase steel grades (DP800). The activation of all three slip plane …

The steels with excellent strength and ductility are expected to be achieved by tailoring the
microstructural features. In this work, laminate dual-phase (DP) steels with high martensite …

The stress-strain behavior of ferrite and austenite in a commercial 2205 duplex stainless
steel was investigated by using nanoindentation test and microstructure-based finite …

A microstructure-based numerical simulation is performed to understand the mechanical
properties and fracture of a Ti-Al 3 Ti core-shell structured particulate reinforced A356 …

A crystal plasticity based finite element (CPFE) framework is developed for performing
representative volume element (RVE) calculations on two-phase materials. The present …

The mechanical behavior of an in-situ Al 3 Ti/A356 composite was studied by three-
dimensional (3D) micromechanical simulation with microstructure-based Representative …

Abstract 3D micro-scale finite element (FE) models were developed to analyze the stress-
state-dependent initiation and growth of failure of cold-sprayed additively manufactured …

In the present study, both experimental and numerical examinations were performed to
understand the hypereutectic Al–Mg 2 Si composite's microstructural morphology …

Ductile fracture involving nucleation, growth and coalescence of microscale voids limits the
performance, safety, reliability and manufacturability of a variety of metallic components and …

In this work, low carbon low alloy steel specimens were subjected to suitable heat treatment
schedules to develop ferrite–pearlite (FP), ferrite–bainite (FB) and ferrite–martensite (FM) …