A systematic review of the various aspects of internal load transfer using different diffraction-
based methods has been carried out in this work to strengthen the understanding of metal …

Heterostructured metals possess superior mechanical properties exceeding the prediction
by the rule-of-mixtures. However, it remains a challenge to understand the key …

TRIP-aided multi-phase steels were made by thermo-mechanically controlled process,
where the ferrite grain size and the amount of the retained austenite were changed by …

Grain size reduction in single phase alloys is generally accompanied by a loss of ductility
related to a decrease in the strain hardening capacity. The flow behaviour of fine-grained …

A recently developed crystal plasticity model for describing twinning and detwinning
behavior is employed to simulate the behavior of extruded Mg alloy, ZK60A. Notably …

A crystal plasticity finite element code is developed to model lattice strains and texture
evolution of HCP crystals. The code is implemented to model elastic and plastic deformation …

Crystals with a hexagonal close-packed (HCP) structure are inherently anisotropic, and
have a limited number of independent slip systems, which leads to strong deformation …

Deformation-induced martensitic transformation that rapidly occurs generally leads to a
significant reduction in elongation of metastable austenitic steels, particularly at low …

For complex multiphase NiAl bronze (NAB) alloys, microscopic residual stress is one of the
main reasons for its stress corrosion cracking. Understanding of the microscopic residual …

An ultrahigh-carbon steel was heat-treated to form an in situ composite consisting of a fine-
grained ferritic matrix with 34vol.% submicron spheroidized cementite particles. Volume …