期刊
INTERNATIONAL JOURNAL OF PRESSURE VESSELS AND PIPING
卷 192, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ijpvp.2021.104430
关键词
Creep constraint; Creep crack initiation; Equation; Prediction; Specimen
资金
- Projects of the National Natural Science Foundation of China [51975212, 51835003]
The study established creep crack initiation time equations for a Cr-Mo-V steel at 566 degrees C under different constraints, and predicted crack initiation times for specimens with different geometries and dimensions under various constraint levels. The predictions aligned well with experimental data and finite element simulations, suggesting the applicability of the methods for high-temperature components under static loads.
Based on two creep constraint parameters (R* and A(c)), the constraint-dependent creep crack initiation (CCI) time equations of a Cr-Mo-V steel at 566 degrees C have been established over a wide range of C* region. The equations are independent on the choice of the reference specimen. Based on the two-parameter (C*-R* and C*-A(c)) and the constraint-dependent CCI time equations, the CCI time for the specimens with different geometries and dimensions (with a wide range of constraint levels) has been predicted over a wide range of C* region. The predicted CCI time agrees well with experimental data available and CCI time of finite element simulations based on the creep ductility exhaustion model. The specimen geometry with high constraint strengthens the effect of out-of-plane constraint on the CCI time. The two constraint parameters R* and A(c) can give similar CCI time prediction results. The two-parameter approaches with considering constraint effect may be applied in the CCI life assessment of high-temperature components (such as pressure pipes and vessels) under static loads in operating plants.
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