Crack Opening Displacement and the Rate of Fatigue Crack Growth
Abstract
Using a direct proportionality between the rate of fatigue crack growth and crack opening displacement above a threshold, it is shown that fatigue crack growth data for a wide variety of different materials can be accurately described in terms of the mechanical properties and two material constants: the constant of proportionality A and the threshold stress intensity factor K sub th. Some 65 sets of data for tests at R approximately equal to O were analyzed by computer and it is shown that the approach is valid to growth rates up to about 0.0001 in./cycle, i.e. until the onset of crack propagation by dimple formation. It is found that can be related to the yield strain for crack growth in non-aggressive environments, and is increased by increasingly severe environments, while K sub th is decreased. These changes provide a measure of the severity of the environment. Crack growth rate in non-aggressive environments is shown to be independent of the yield stress and proportional to the strain intensity factor. above the threshold. The tabulation of A and K sub th values as a function of material, environment and loading conditions provides a systematic engineering approach to estimating rates of fatigue crack growth and in determining the residual lifetimes of flawed structures.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 01, 1971
- Accession Number
- AD0733369
Entities
People
- Arthur J. Mcevily
- Hector M. Clark
- Phillip Atanmo
- Raghvir Kumble
- Raymond J. Donahue
Organizations
- University of Connecticut