Low cycle fatigue behavior of blanket structural materials

Syracuse University has recently been engaged in studies pertaining to the low-cycle controlled strain fatigue behavior of steel and aluminum alloys. Axial tension-ompression and bend cycling fatigue tests were utilized to investigate the effects of a number of parameters including mean strain, stre

Experimental results show that the inherent ductility in a material is deflected after cycle loading. Based on the concept of ductility deflection, a new fatigue damage variable D\* for low-cycle fatigue is recommended in this paper. This new damage variable D\* has definite physical meaning and can

## Abstract The deformation behavior of pure recrystallized molybdenum under cyclic and static loads was investigated in the temperature range between 30°C and 10O°C, for stress amplitudes between 100 MPa and 250 MPa and for static loads up to 200 MPa. The results show that in spite of the low test

An investigation was conducted on HY-80 steel to show how low-cycle fatigue life is influenced by imposition of various stresses prior to fatigue testing. One cycle of static prestress was imposed on each specimen at loads either above or below the yield strength of the material and fatigue testing

Low cycle fatigue tests were carried out by the authors using a number of fatigue specimens of LY12CZ aluminum alloys, annealed 40CrNiMoA alloy steels and BHW35 pressure vessel steels which are of monotonic cyclic hardening or softening property, respectively. The concept of cyclic hardening or soft