학술논문

Methods for nondestructive testing of austenitic high-temperature gas-cooled reactor components

Document Type

Journal Article

Author

Source

Nucl. Technol.; (United States); 66:2

Subject

36 MATERIALS SCIENCE
21 SPECIFIC NUCLEAR REACTORS AND ASSOCIATED PLANTS
42 ENGINEERING AUSTENITIC STEELS
NONDESTRUCTIVE TESTING
HTGR TYPE REACTORS
REACTOR MATERIALS
NICKEL BASE ALLOYS
GRAIN SIZE
HASTELLOY X
INCOLOY 800H
INCONEL 617
NIMONIC 86
REACTOR COMPONENTS
ALLOYS
ALUMINIUM ADDITIONS
ALUMINIUM ALLOYS
CARBON ADDITIONS
CHROMIUM ALLOYS
COBALT ALLOYS
CRYSTAL STRUCTURE
GAS COOLED REACTORS
GRAPHITE MODERATED REACTORS
HASTELLOYS
HEAT RESISTANT MATERIALS
HEAT RESISTING ALLOYS
INCOLOY ALLOYS
INCONEL ALLOYS
IRON ALLOYS
IRON BASE ALLOYS
MANGANESE ADDITIONS
MANGANESE ALLOYS
MATERIALS
MATERIALS TESTING
MICROSTRUCTURE
MOLYBDENUM ALLOYS
NICKEL ALLOYS
NIMONIC
REACTORS
SILICON ADDITIONS
SILICON ALLOYS
SIZE
STEELS
TESTING
TITANIUM ADDITIONS
TITANIUM ALLOYS
TUNGSTEN ALLOYS 360102* -- Metals & Alloys-- Structure & Phase Studies
210300 -- Power Reactors, Nonbreeding, Graphite Moderated
420500 -- Engineering-- Materials Testing

Language

English

Abstract

Safety-relevant components of high-temperature gas-cooled reactor components are mostly fabricated in nickel-based alloys and austenitic materials like Inconel-617, Hastelloy-X, Nimonic-86, or Incoloy-800H. Compared to ferritic steels, these austenitic materials can have a coarse-grained microstructure, especially in weldments and castings. Coarse-grained or elastic anisotropic materials are difficult to inspect with ultrasonics due to strong attenuation, high noise level (scattering, ''grass'' indications), and sound beam distortions (skewing, splitting, and mode conversion). Only few results dealing with the nondestructive testing of nickel-based alloys are known. The problem area, solutions, and first experiences are reported.

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