Solid-state phase transformation is an intriguing phenomenon in crystalline or noncrystalline
solids due to the distinct physical and chemical properties that can be obtained and modified …

In this review, we separate the different governing factors on austenite stability into intrinsic
and extrinsic factors, depending on the domain defined by austenite grain boundaries. The …

In industrial steel plate production, process parameters and steel grade composition
significantly influence the microstructure and mechanical properties of the steel produced …

Expanded and revised to cover developments in the field over the past 17 years, and now
reprinted to correct errors in the prior printing, Phase Transformation in Metals and Alloys …

Understanding the micromechanical consequences of transformation-induced plasticity
(TRIP)-assisted steels is challenging, due to the presence of multiple phase constituents and …

This paper is concerned with the dynamic tensile characteristics of transformation-induced
plasticity (TRIP)-type and dual phase (DP)-type steel sheets at intermediate strain rates …

Renowned for the superior mechanical properties and adeptness at cold-forming,
Quenching and Partitioning (QP) steels have gained prominence as a promising candidate …

Formation and nucleation mechanisms (ie γ→ ε, γ→ α′, γ→ deformation twins→ ε→ α′
and γ→ ε→ α′) of deformation-induced martensite (DIM) have been studied through …

Plate impact experiments are conducted on a metastable dual-phase high-entropy alloy
(HEA) Cr 10 Mn 30 Fe 50 Co 10 with different matrix grain sizes and phase fractions. Free …

The martensite start temperature (M s) is a significant parameter to describe the stability of
retained austenite in steels. This paper provides a prediction model of M s for lath martensite …