The current understanding of the microstructural features and mechanical properties of
micro-alloyed low carbon steels strengthened by interphase precipitation of nano-sized alloy …

For decades, it has been well accepted that every 1 wt.% Li addition to Al will reduce Al
alloy's density by 3% and increase its Young's modulus by 6%. However, the fundamental …

There is currently a gap in our understanding of mechanisms that contribute to high strength
and high plasticity in high strength UFG ferritic steel with nano-size Fe 3 C carbides in …

Precipitation-hardening martensitic stainless steels rely on very fine precipitates for optimal
mechanical performance. These multicomponent alloys are prone to clustering and …

The precipitation kinetics of vanadium carbides and its interaction with the austenite-to-
ferrite phase transformation is studied in two micro-alloyed steels that differ in vanadium and …

The correlation among continuous cooling transformations, interphase precipitation and
their strengthening effect was investigated quantitatively in a Ti-microalloyed steel subjected …

Despite a large number of studies relevant to MX (M= Ti, V, Nb; X= C, N) precipitation in
microalloyed steels, the evolution rules of the precipitate morphology remain unclear. In this …

Quantitative modelling of precipitation kinetics can play an important role in a computational
material design framework where, for example, optimization of alloying can become more …

In-depth understanding of the impact mechanism of nitrogen on tempering behavior of hot-
working die steel is still limited. In present work, the microstructural evolution and …

Combining high-resolution transmission electron microscopy (HR-TEM) and 3-dimensional
atom probe tomography (3D-APT), the early stages of nucleation and growth of vanadium …