Laves phases with their comparably simple crystal structure are very common intermetallic
phases and can be formed from element combinations all over the periodic table resulting in …

Classical alloy design strategies often aim to benefit from metastability. Examples are
numerous: metastable transformation-and twinning-induced plasticity steels, cobalt or …

Developing affordable and light high-temperature materials alternative to Ni-base
superalloys has significantly increased the efforts in designing advanced ferritic superalloys …

Developing microstructurally stable alloys with the outstanding strength-ductility combination
at both room temperature and elevated temperatures is highly desirable for advanced …

Thermally stable high-entropy alloys (HEAs) consisting of a high density of coherent
precipitates show a great potential for high-temperature applications. In this work, we …

The FCC-structured high entropy alloys (HEAs) possess exceptional ductility and fracture
toughness, but they generally exhibit insufficient strength for engineering applications. In this …

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 …

Thermodynamic criteria of lattice distortion energy (ΔH el) and enthalpy of mixing (ΔH mix)
were considered to design and estimate the initial phase formation and stability in (CoCrNi) …

Understanding of the competition between continuous precipitation (CP) and discontinuous
precipitation (DP) is crucial for tailoring the microstructure and mechanical properties of …

Three high entropy alloys (HEAs), based on Al-Cr-Fe-Ni-X (X: Cu, Ti or Nb), have been
designed and prepared. The sample with Cu addition has formed FCC solid solutions while …