Incoloy† Alloy 925 (UNS N09925) was developed as an age-hardenable alloy for sour gas well applications to provide the drilling industry with a suitable alternative to high-Cr and -Mo alloys that must be cold worked to achieve high-strength levels. This paper describes the microstructures, mechanical properties, and stress corrosion cracking (SCC) data obtained on alloy 925 in the annealed and aged, as well as cold-worked and aged conditions. Characterization of the phases present after aging treatments was conducted by conventional metallography, scanning electron microscopy (SEM), and x-ray diffraction (XRD). Time-temperature transformation diagrams, based on the microstructural information and mechanical properties data obtained after various heat treatments, are also presented for this alloy.
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1 November 1988
Research Article|
November 01 1988
Development of a Time-Temperature Transformation Diagram for Alloy 925☆
P. Ganesan;
P. Ganesan
*Inco Alloys International, Inc., P. O. Box 1958, Huntington, West Virginia 25720.
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E. F. Clatworthy;
E. F. Clatworthy
*Inco Alloys International, Inc., P. O. Box 1958, Huntington, West Virginia 25720.
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J. A. Harris
J. A. Harris
**Formerly with Inco Alloys International; presently at Omega Technology Corp., Houston, Texas.
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Online ISSN: 1938-159X
Print ISSN: 0010-9312
National Association of Corrosion Engineers
1988
CORROSION (1988) 44 (11): 827–835.
Citation
P. Ganesan, E. F. Clatworthy, J. A. Harris; Development of a Time-Temperature Transformation Diagram for Alloy 925☆. CORROSION 1 November 1988; 44 (11): 827–835. https://doi.org/10.5006/1.3584954
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