Discussions to R.P. Wei: Fatigue crack propagation in a high-strength aluminum alloy

The rates of fatigue-crack propagatmn for a h~gh-strength aluminum alloy (7075-T651) in a~ envaronment of D20 (99 98~ purity) at room temperature were determined and compared with data obtained in [ugh-purity argon and dastflled water. The results showed that D20 caused a ten-fold Increase in the ra

Fatigue and corrosion fatigue crack propagation behaviors of high-strength steel, HSB800, were investigated in air and seawater environments. Three-point bending fatigue tests were conducted under various loading conditions at different levels of load frequency and ratio. A fracture model enabling m

The influence of various gaseous environments on the rate of fatigue crack growth at room temperature in an 0.45 percent carbon low-alloy ultra-high-strength steel tempered at 400°F and at 800°F has been investigated. The sensitivity of the rate of fatigue crack growth to moisture in this steel is f

It is well accepted that the steady-state fatigue crack growth rates of long cracks depend uniquely on AK for a fixed load ratio R and test environment. Anomalous growth behavior of short cracks in either inert or deleterious environments that has been reported [1-7], however, calls into question th