Ultra-high strength steels are the crucial irreplaceable materials in the fields of aerospace,
national defense and military industries. Unfortunately, it is challenging to achieve the …

Continuous innovations in design of advanced structural steels are essential for future
progress in manufacturing, automotive and construction industries. Events taking place at …

The effect of increasing pre-stretching to higher levels, than are currently used in industrial
practice, has been investigated on the strength, microstructure, and precipitation kinetics …

Advanced ultra-high strength steels are highly desirable for a wide range of engineering
applications. Nanoscale co-precipitation strengthening in steels has received increasing …

We report on the alloy design strategies, precipitation mechanism and mechanical
properties of an ultra-high strength steel hardened by co-precipitation of nanoscale NiAl and …

A novel ultra-high strength precipitation hardened martensitic steel with balanced ductility
and creep resistance has been developed. It utilises a unique combination of nanometre …

High-performance conventional engineering materials (including Al alloys, Mg alloys, Cu
alloys, stainless steels, Ni superalloys, etc.) and newly-developed high entropy alloys are all …

In the present work, selective laser melting (SLM) technology was utilized for manufacturing
CX stainless steel samples under a series of laser parameters. The effect of laser linear …

Additive manufacturing of a low carbon Fe–Cr–Ni–Al maraging stainless steel (with the
brand name CX) through the laser-powder bed fusion (LPBF) process is studied. Since the …

Advanced alloys with both high strength and ductility are highly desirable for a wide range of
engineering applications. Conventional alloy design strategies based on the single-principle …