The Influence of Absorbed Moisture on Fatigue Crack Propagation Behavior in Polyamides. Part A. Macroscopic Response.
Abstract
The effect of plasticization on the fatigue crack propagation response in polyamides was examined by conducting fatigue tests on specimens of nylon 66 (N66), nylon 6 (N6), and nylon 612 (N612) which had been equilibrated at various levels of absorbed water. In N66 and N6, crack growth rates decreased as the water content was increased to about 2.5%; with increasing moisture content, FCP rates increased and at saturation (8.5% H2O) FCP rates were higher than those observed in the dry polymer. Crack growth rates in N612 decreased monotonically as the water content increased to saturation (3.2% in this polyamide.) These results were interpreted in terms of the competition between enhanced crack tip blunting and degradation of the specimen modulus. Crack tip blunting was believed to dominate fatigue behavior at low water contents (< or = 2.5%) and contributed to reduced FCP rates. The higher crack growth rates observed at higher moisture levels were believed to be caused by reductions in material stiffness. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 30, 1981
- Accession Number
- ADA096069
Entities
People
- John A. Manson
- Philip E. Bretz
- Richard W. Hertzberg
Organizations
- Lehigh University