The correlation between stacking fault energy (SFE) and deformation microstructure of high-
interstitial-alloyed austenitic Fe–18Cr–10Mn–(N or N+ C) alloys was investigated. As the …

Seven stable austenitic steels (stable with respect to γ→ α′ transformation at room
temperature) of different alloy compositions (18Cr–12.5 Ni, 18Cr–35Ni, 18Cr–8Ni–6Mn …

The austenite stability and deformation behavior of 15Cr-15Mn-4Ni based austenitic
stainless steels alloyed with C or N are studied. Stability of austenite against martensitic …

Alternating prestress is difficult to measure. By analyzing the inverse magnetostriction effect
and the magnetic hysteresis, a theoretical model was established to describe the prestress …

Although minor additions of interstitials have been employed to enhance the yield strength
of high-entropy alloys (HEAs) with multi-principal elements, the significant loss of ductility …

The use of interstitial elements has been a key factor for the development of different kinds of
steels. However, this aspect has been little explored in the field of high entropy alloys …

It is known that the cavitation resistance of austenitic stainless steels can be increased by
the addition of nitrogen. This is attributed to the strengthening effect of N and the lower …

In this investigation, the effect of deformation on magnetic properties at low temperatures of
FeCr18. 2Mn18. 9–0.96 C+ N high interstitial steel was studied. Tensile tests were carried …

A novel high-aluminum austenitic stainless steel has been produced in the laboratory with
the aim of developing a lean-alloyed material with a high resistance to hydrogen …

The deformation, fracture, and wear behaviours of two new C+ N enhancing alloying
austenitic steels (CNEASs) for railway crossings under high speeds and heavy loads were …