Title of article
Analytical Prediction of Fatigue Crack Propagation in Metals
Author/Authors
Ramsamooj، D. V. نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2003
Pages
-671
From page
672
To page
0
Abstract
An analytical model for fatigue crack propagation of long cracks in metals and metal alloys is presented. The key features of the model are an extension of Griffithʹs theory of fracture to include fatigue, a dislocation model for the crack tip opening displacement, and cyclic plasticity-induced closure. The net cyclic stretch of the process zone at the crack tip plays a major role in the fatigue crack propagation under cyclic loading. Only constant amplitude loading is considered in this paper. The model predictions utilize only the readily available material properties, such as Youngʹs modulus, yield strength, threshold stress intensity factor, and the fracture toughness. There are no empirical fitting constants. The model predictions are validated by an extensive amount of published fatigue crack growth studies. The agreement between the model predictions and the experimental data is good.
Keywords
Quantum dots , Fluorescence resonance energy transfer , immunoglobulin G
Journal title
JOURNAL OF ENGINEERING MECHANICS
Serial Year
2003
Journal title
JOURNAL OF ENGINEERING MECHANICS
Record number
46984
Link To Document