A new vibration-based fatigue testing methodology for assessing high-cycle turbine engine material fatigue strength at various stress ratios is presented. The idea is to accumulate fatigue energy on a base-excited plate specimen at high frequency resonant modes and to complete a fatigue test in a much more efficient way at very low cost. The methodology consists of (1) a geometrical design procedure, incorporating a finite-element model to characterize the shape of the specimen for ensuring the required stress state/pattern; (2) a vibration feedback empirical procedure for achieving the high-cycle fatigue experiments with variable-amplitude loading; and finally (3) a pre-strain procedure for achieving various uniaxial stress ratios. The performance of the methodology is demonstrated with experimental results for mild steel, 6061-T6 aluminum, and Ti-6Al-4V plate specimens subjected to a fully reversed bending, uniaxial stress state.

Issue Section:
Technical Papers
Keywords:
steel, aluminium, titanium alloys, aluminium alloys, vanadium alloys, fatigue testing, fatigue, plates (structures), vibrations, stress-strain relations, internal stresses, finite element analysis
Topics:
Cycles, Fatigue, Fatigue testing, Stress, Vibration, Steel, Finite element model, Design
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Copyright © 2005
 by ASME
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