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Creep-fatigue life prediction under fully-reversed multiaxial loading at high temperatures

✍ Scribed by De-Guang Shang; Guo-Qin Sun; Chu-Liang Yan; Jian-Hua Chen; Neng Cai

Publisher: Elsevier Science
Year: 2007
Tongue: English
Weight: 223 KB
Volume: 29
Category: Article
ISSN: 0142-1123
DOI: 10.1016/j.ijfatigue.2006.06.010

No coin nor oath required. For personal study only.

✦ Synopsis

A multiaxial fatigue damage parameter based on the critical plane approach was proposed to calculate the pure fatigue damage under uniaxial/multiaxial loading at constant high temperatures. For the fully-reversed low-cycle fatigue loading under low frequency at high temperature, one-half of the maximum equivalent stress response value at cyclic stabilization is used as the creep stress to evaluate the multiaxial creep damage. The linear damage accumulation rule is used to predict the multiaxial creep-fatigue life at high temperature. The creep-fatigue experimental data of thin tubular specimens with GH4169 superalloy and 2.25Cr-1Mo steel were used to verify the proposed creep-fatigue life prediction model. The results showed that the proposed creep-fatigue damage calculation model can be used under either uniaxial or multiaxial nonproportional loading at high temperature. The proposed model is used to predict multiaxial creepfatigue life, and a good agreement is demonstrated with experimental data.

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