A GENERALIZED FATIGUE LIMIT CRITERION AND A UNIFIED THEORY OF LOW-CYCLE FATIGUE DAMAGE

A critical evaluation of endurance limits under very high cycle (giga-cycle range) fatigue is presented. The available experimental results are analyzed using the unified damage approach developed earlier by the authors. It is shown that the experimental evidence supports the theory that endurance l

It is well-known that the empirical Manson-Coffin law tends to over-predict the cyclic life under extremely low cycle fatigue condition. In the present paper, a new unified expression is proposed to overcome this shortcoming. By introducing an exponential function, this new expression is capable of

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

A study has been made to develop a model predicting the low cycle fatigue life of a material in relation to its microstructural variables. To achieve this goal, the concept of damage accumulation by multiple surface cracks has been adopted. An equation for stage I crack growth suggested by Tomkins w