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Oxidation-involved life prediction and damage assessment under generalized creep-fatigue loading conditions based on engineering damage mechanics

Run‐Zi Wang, Xian‐Cheng Zhang, Hang-Hang Gu, Kai-Shang Li, Jian‐Feng Wen, Hideo Miura, Ken Suzuki, Shan‐Tung Tu

2022Journal of Materials Research and Technology23 citationsDOIOpen Access PDF

Abstract

The object of this paper is to develop numerical procedures for creep-fatigue-oxidation life prediction and damage assessments based on engineering damage approach, in response to high-reliability and long-life design requirement that supports low-carbon and new-energy technologies. In order to achieve the prediction results in terms of cycle-dependent stress–strain responses, crack initiation life prediction and multi-damage evolutions, the generalized creep-fatigue loading conditions including tension-hold-only, compression-hold-only and tension-compression-hold-both, which are abbreviated as CP, PC, and CC types, are conducted for IN 718 at 650 °C. Results show that creep-fatigue deformation behaviors are well depicted through the evolutions of hysteresis loops, cyclic softening curves and stress responses. With incorporating into oxidation damage especially under long-life conditions, both error band and probability density function for life prediction are quantitatively improved. In addition, the cycle-dependent roles in multi-damage evolutions are clearly observed in a set of radar graphs, where fatigue, creep and oxidation damage are manifested as different evolutionary features. Finally, the technical route in the transition from deterministic to probabilistic multi-damage assessments is discussed based on the established creep-fatigue-oxidation diagram.

Topics & Concepts

CreepMaterials scienceStructural engineeringProbabilistic logicSofteningService lifeDamage mechanicsReliability (semiconductor)Compression (physics)Composite materialComputer scienceFinite element methodEngineeringThermodynamicsArtificial intelligencePhysicsPower (physics)Fatigue and fracture mechanicsHigh Temperature Alloys and CreepFire effects on concrete materials