A review of thermal, microstructural and constitutive modelling of 9Cr steel for power plant applications: Towards a through-process model for structural integrity of welded connections
Mac Ardghail, Padraig Leen, Sean B. Harrison, Noel M.
Mac Ardghail, Padraig
Leen, Sean B.
Harrison, Noel M.
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Publication Date
2020-01-01
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Article
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Ardghail, P. Mac, Leen, S. B., & Harrison, N. (2020). A review of thermal, microstructural and constitutive modelling of 9Cr steel for power plant applications: Towards a through-process model for structural integrity of welded connections. International Journal of Pressure Vessels and Piping, 104037. doi: https://doi.org/10.1016/j.ijpvp.2019.104037
Abstract
Life prediction for 9Cr steel welded components is an important issue facing power plant as it moves from steady-state, base-load operation to transient, flexible operation. Welding and heat-treatment of 9Cr components alters the steel microstructure to produce a heat-affected zone, which is susceptible to early failure under creep and high-temperature cyclic conditions. Optimal welding and heat treatment processes cannot feasibly be identified experimentally but finite element simulation is a practical solution to this problem. A review of modelling methodologies for welding, heat treatment and in-service operation in thermal power plant for 9Cr steel is presented here. The authors consider that macro-scale, physically-based models are the most promising models currently available since they account for changes in material microstructure while still being practical for simulations involving component-sized FE geometries.
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Elsevier
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Attribution-NonCommercial-NoDerivs 3.0 Ireland