Ratchetting Deformation Behavior of Modified 9Cr-1Mo Steel and Applicability of Existing Constitutive Models
Masatsugu YAGUCHI and Yukio TAKAHASHI
Abstract:A series of ratchetting deformation tests was conducted on modified 9Cr-1Mo steel at 550 under uniaxial and multiaxial stress conditions. Ratchetting behavior depended on various parameters such as mean stress, stress/strain rate and those range, hold time and prior cyclic deformation. Under uniaxial conditions, untraditional ratchetting behavior was observed; the ratchetting deformation rate was the fastest when the stress ratio was equal to -1, while no ratchetting deformation was predicted by conventional constitutive models. In order to discuss the reason for this untraditional ratchetting behavior, a lot of monotonic compression tests were conducted and compared with tension data. The material showed a difference of deformation resistance of about 30MPa between tension and compression at high strain rates. Furthermore, the authors' previous model and Ohno-Wang model were applied to the test conditions to evaluate their description capability for ratchetting behavior of the material. It was shown that the authors' model has a tendency to overestimate the ratchetting deformation and that the Ohno-Wang model has a tendency to underestimate the uniaxial ratchetting deformation at small stress rates. Key Words:Ratchetting deformation behavior, Modified 9Cr-1Mo steel, Inelastic constitutive equations, Tension-compression anisotropy, Ohno-Wang model