The nucleation and growth of precipitates such as Laves phases, carbides and nitrides reduce fracture toughness and high-temperature strength of high chromium steels used in thermal power plants. For this reason, to ensure a long-term plant reliability, it is important to estimate material deterioration by aging. The study presented in this paper involves micro structural evolution by thermal aging of COST-E, F, and FB2 steels, all turbine materials. The results indicate that the Laves phases and other precipitates can be separately detected and quantified by the electrochemical technique. The results also clarify the correlation between the amount of Laves phases precipitated and electrochemical polarization parameters.

carbides, electrochemical polarization, electrochemical technique, fracture toughness, Laves phase, martensitic stainless steel, nitrides, precipitation, thermal aging
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2019
ASM International
Topics
Electrochemical measurement techniques Martensitic stainless steel Aging Electrochemical polarization Fracture toughness Laves phase Precipitation
Issue Section:
Life Assessment and Life Management