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Fatigue crack propagation in a ductile superalloy at room temperature and extensive cyclic plastic flow
Affiliation:1. Department of Mechanical Engineering, Politecnico di Milano, Via La Masa 1, 20156 Milan, Italy;2. Department of Mechanical Engineering, Clemson University, 29634 Clemson, SC, USA;3. Department of Mechanical Science and Engineering, University of Illinois at Urbana-Champaign, 1206 W Green Street, 61801 Urbana, IL, USA
Abstract:Fatigue crack propagation experiments under both force and displacement control have been performed on the wrought superalloy Haynes 230 at room temperature, using a single edge notched specimen. The force controlled tests are nominally elastic, and the displacement controlled tests have nominally large plastic hysteresis at the beginning of the tests, but saturates towards linear elastic conditions as the crack grows. As some tests are in the large scale yielding regime, a non-linear fracture mechanics approach is used to correlate crack growth rates versus the fracture parameter ΔJ. It is shown that crack closure must be accounted for, to correctly model the crack growth seen in all the tests in a unified manner. For the force controlled small scale yielding tests the Newman crack closure model was used. The Newman equation is however not valid for large nominal cyclic plasticity, instead the crack closure in the displacement controlled tests is extracted from the test data. A good agreement between all tests is shown, when closure is accounted for and effective values of ΔJ are used.
Keywords:Fatigue crack propagation  Haynes 230  Large scale yielding  Crack closure
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