The M4F project brings together the fusion and fission materials communities working on the
prediction of radiation damage production and evolution and their effects on the mechanical …

Cyclic responses of a novel heat resistant martensitic steel, 9Cr3Co3W1CuVNbB steel,
under different loading modes were studied to reveal its complex strengthening mechanisms …

The significance of Ti in promoting the nucleation of MX-type carbides and further refine the
MX carbides is currently unknown. Thus, we study here by high resolution transmission …

This paper presents a dislocation-mechanics cyclic viscoplasticity model which incorporates
the key physical micro-mechanisms of strengthening and softening for high temperature …

The low-cycle fatigue behavior of indigenously developed modified 9Cr–1Mo steel has been
evaluated using a constant strain rate (1× 10− 3 s− 1) at ambient temperature (25° C) and at …

A series of uniaxial strain-controlled fatigue tests were performed at 650° C to explore the
high-temperature low cycle fatigue (LCF) behavior and corresponding microstructure …

The correlation between cyclic softening and microstructural evolution using the interrupted
low cycle fatigue (LCF) tests with a low strain amplitude of±0.2% at 650° C in a 10% Cr steel …

Low cycle fatigue tests for P92 heat-resistant steels (P92 HRS) were conducted at room
temperature (RT) and elevated temperature (873 K). The fatigue test results showed that …

The objective of the paper is to understand the mechanism of early stage crack formation in
the low cycle fatigue of a martensitic steel with a complex and hierarchic microstructure. As a …

This work is devoted to the study of the influence of prior low cycle fatigue (LCF) on
microstructure evolution and subsequent creep behavior of P92 steel. Different strain …