1 / 2017-01-19 06:49:57
Microstructural modeling of creep-fatigue crack growth behavior combined with a non-linear creep-fatigue constitutive damage model
2254,4370,4152,524
Abstract Accepted
Lei Zhao / Tianjin University
Lian Xu / Tianjin University
For accurately demonstrating the crack growth behavior and the representing the damage accumulation process, a novel creep-fatigue interaction damage model was proposed. In this model, the maximum stress of the cyclic loading was introduced into the fatigue damage model, which well denoted the crack growth behavior of the low cycle fatigue. What’s more, the mutual effect between creep and fatigue was also considered in this model using a non-linear summation approach. Furthermore, the crack growth behavior in creep-fatigue regime was conducted using a novel microstructural modeling approach, where the microstructure was generated using the Voronoi tessellation method. The intergranular fracture of the creep mechanism and the transgranular failure of the fatigue/creep-fatigue mechanism were all demonstrated by the microstructural modeling simulations. The failure type in creep-fatigue mechanism was related to the duration time of the peak load. The effect of the grain size, the grain uniformity and the grain boundary on creep, fatigue and creep-fatigue crack growth behavior was revealed, where the damage evolution process was provided.
Important Date
  • Conference Date

    May 16

    2017

    to

    May 18

    2017

  • Dec 31 2016

    Abstract Submission Deadline

  • May 18 2017

    Registration deadline

Previous Conferences