Turbine Component Life Analysis
Metallurgical examination of hot gas path components assessed for remaining service life includes characterizing the type of damage and quantifying the extent of material degradation so that an informed and cost effective repair or replacement decision can be made.
Click here for the technical paper: Practical Experience with the Development of Superalloy Rejuvenation
Component Analysis (Blades, Vanes, Combustors, etc.)
Analysis can include investigation of:
- oxidation/corrosion attack
- coating thickness and integrity
- microstructural degradation
- reduced creep strength
- dimensional changes
Liburdi has developed techniques which have become the recognized industry standard with the issue of “Gas Turbine Blade Life Assessment and Repair Guide” co-authored by Liburdi and published by EPRI. We continue to develop advanced techniques for correlating microstructural and coating changes with service exposure which, along with effective use of Finite Element Technology, enhances the value of the information derived from the components.
Disc Life Trend Analysis
Unlike hot section components such as turbine blades and vanes, discs operate in a relatively cool environment, free of oxidation attack, but at very high stress loads. This environment requires a different approach to determining disc life. Liburdi has developed and successfully applied a detailed mechanical design methodology by modelling the blade/disc assembly and using finite element stress analysis to determine stress concentration, stress relaxation algorithms and ultimately the service life expectancy of the disc.