Long Time Creep Rupture of Haynes(TM) Alloy 188 PDF Download
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Author: Robert L. Dreshfield Publisher: ISBN: Category : Languages : en Pages : 12
Book Description
The creep of Haynes Alloy 188 sheet in air was studied at temperatures of 790, 845, and 900 C for times in excess of 30,000 hours as part of a program to assure that Haynes Alloy 188 could be used in critical components of a solar dynamic power conversion system for Space Station Freedom. The rupture life and time to 0.5 and 1.0% creep strain of creep rupture specimens which had lives from about 6000 to nearly 59,000 hours are reported. Both welded and as-received specimens were tested. The welded specimen had essentially the same lives as the as-received specimens. Comparison of this data with previously published results suggests that this material was similar in behavior to that previously studied by Haynes except at 790 C where the current sheet is somewhat stronger in stress rupture. Therefore the previously published data for Haynes Alloy 188 may be used in conjunction with this data to estimate the lives of components for a long life solar dynamic power system. Three creep rupture tests were discontinued after 16,500 to 23,200 hours and tensile tested at room temperature or 480 C. The elongation of all three specimens was substantially reduced compared to the as-received condition or as aged (without applied stress) for 22,500 hours at 820 C. The pores found across the thickness of the interrupted creep specimens. The implications of the severe loss of ductility observed in tensile tests after prolonged creep test needs further study.
Author: Robert L. Dreshfield Publisher: ISBN: Category : Languages : en Pages : 12
Book Description
The creep of Haynes Alloy 188 sheet in air was studied at temperatures of 790, 845, and 900 C for times in excess of 30,000 hours as part of a program to assure that Haynes Alloy 188 could be used in critical components of a solar dynamic power conversion system for Space Station Freedom. The rupture life and time to 0.5 and 1.0% creep strain of creep rupture specimens which had lives from about 6000 to nearly 59,000 hours are reported. Both welded and as-received specimens were tested. The welded specimen had essentially the same lives as the as-received specimens. Comparison of this data with previously published results suggests that this material was similar in behavior to that previously studied by Haynes except at 790 C where the current sheet is somewhat stronger in stress rupture. Therefore the previously published data for Haynes Alloy 188 may be used in conjunction with this data to estimate the lives of components for a long life solar dynamic power system. Three creep rupture tests were discontinued after 16,500 to 23,200 hours and tensile tested at room temperature or 480 C. The elongation of all three specimens was substantially reduced compared to the as-received condition or as aged (without applied stress) for 22,500 hours at 820 C. The pores found across the thickness of the interrupted creep specimens. The implications of the severe loss of ductility observed in tensile tests after prolonged creep test needs further study.
Author: The Minerals, Metals & Materials Society (TMS) Publisher: John Wiley & Sons ISBN: 1119016606 Category : Technology & Engineering Languages : en Pages : 958
Author: Publisher: ISBN: Category : Aeronautics Languages : en Pages : 538
Book Description
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
Author: Winston O. Soboyejo Publisher: CRC Press ISBN: 1420017462 Category : Technology & Engineering Languages : en Pages : 526
Book Description
A snapshot of the central ideas used to control fracture properties of engineered structural metallic materials, Advanced Structural Materials: Properties, Design Optimization, and Applications illustrates the critical role that advanced structural metallic materials play in aerospace, biomedical, automotive, sporting goods, and other indust
Author: Robert L. Dreshfield
Author: Robert L. Dreshfield
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Author: The Minerals, Metals & Materials Society (TMS)
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Author: Winston O. Soboyejo
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Author: Peter K. Liaw