These materials and welds present challenging eddy-current problems because of their relatively large thickness and ferromagnetism. The objective of this phase was to demonstrate the feasibility of detecting and characterizing flaws in austenitic stainless steel base metals. This paper describes the initial phase of a project to develop eddy-current methods to inspect welds joining sections of austenitic stainless steel pipe having walls up to 13 mm (0.5 in.) thick. Original copy available until stock is exhausted Country of Publication: United States Language: English Subject: 70 PLASMA PHYSICS AND FUSION TECHNOLOGY 71 CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS SUPERCONDUCTING CABLES WELDED JOINTS DIAGNOSTIC TECHNIQUES EDDY CURRENTS INSPECTION LARGE COIL PROGRAM SUPERCONDUCTING MAGNETS CABLES CONDUCTOR DEVICES CURRENTS ELECTRIC CABLES ELECTRIC CURRENTS ELECTRICAL EQUIPMENT ELECTROMAGNETS EQUIPMENT JOINTS MAGNETS SUPERCONDUCTING DEVICES 700202* - Fusion Power Plant Technology- Magnet Coils & Fields 420201 - Engineering- Cryogenic Equipment & = , Publication Date: Mon Apr 01 00:00: Research Org.: Oak Ridge National Lab., TN (USA) OSTI Identifier: 5709724 Report Number(s): ORNL/TM-9470 ON: DE85013533 DOE Contract Number: AC05-84OR21400 Resource Type: Technical Report Resource Relation: Other Information: Portions of this document are illegible in microfiche products.