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 …

Nanoscale precipitation and its influence on the strengthening mechanisms in low-carbon
ultra-high-strength steel, hot-rolled at different temperatures and subjected to various …

This paper reports on the formation of an Mo-rich Laves phase during high-temperature
exposure and creep of a tempered martensite ferritic steel with 12 wt.% Cr and 1 wt.% Mo …

The evolution of the microstructure and its effect on mechanical properties of a 10% Cr steel
under long-term aging at 650° C have been investigated. During short-term aging (< 6000h) …

The influence of Laves phase (type Fe2W) formation and growth kinetics on the creep
strength at 650° C of two different 9% Cr heat resistant steels of the authors' design was …

The precipitation of the Laves-phase in a low-carbon 9% Cr heat resistant steel was studied
under conditions of aging and creep at 923 K. The Laves-phase of Fe 2 (W, Mo)-type with a …

In this work 9% Cr alloys were designed supported by computational thermodynamic
methods. Two sets of alloys were produced: 9% Cr alloys with 0.1% C and 0.05% C and 9 …

Abstract The Fe-10Cr-10Ni-6.5 Al-3.4 Mo-0.25 Zr-0.005 B (wt.%) ferritic FBB8 superalloy
shows good creep resistance due to the presence of B2-NiAl precipitates, created upon …

The stability of MX-type precipitates is critical to retain mechanical properties of both
reduced activation ferritic–martensitic (RAFM) and conventional FM steels at elevated …

FeCrAl alloy with a low-Cr content (10%) and higher amount of Al (5%) was developed. The
effects of Cr content on the mechanical properties, irradiation tolerance and the steam …