Nondisruptive material sampling and mechanical testing |
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Authors: | J R Foulds R Viswanathan |
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Affiliation: | (1) Failure Analysis Associates, Inc., 149 Commonwealth Drive, 94025 Menlo Park, California;(2) Electric Power Research Institute, 3412 Hillview Avenue, 94303 Palo Alto, California |
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Abstract: | The aging and inservice degradation of industrial equipment has underscored a need for efficient and reliable evaluation of the suitability of such equipment for continued service. The structural components of traditional energy production facilities, such as fossil- and nuclear-fueled electric power plants, are prime examples of aging equipment for which integrity during extended service is of major concern. The paper describes a recently developed nondisruptive miniature material sample removal and test approach that is being applied to a range of operating electric power plant components from turbine generators to pressure vessels, and to petrochemical plant reactor vessels for inservice integrity assessment. Thein situ removal of a thin wafer-like sample (less than 25 mm in diameter and 2.5 mm in thickness) from the component surface generally has no effect on component integrity. The miniature specimen small punch (disk bend) test has been developed to mechanically test the as-removed material, and is being used to estimate the material tensile behavior and fracture properties (ductile-to-brittle transition temperature and fracture toughness) required for a reliable component integrity assessment. |
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Keywords: | Miniature sample removal fracture toughness small punch testing disk bend continuum toughness steels fracture appearance transition temperature inservice integrity |
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