3 edition of Creep-rupture behavior of candidate Stirling engine iron superalloys in high-pressure hydrogen. found in the catalog.
Creep-rupture behavior of candidate Stirling engine iron superalloys in high-pressure hydrogen.
by National Aeronautics and Space Administration, Lewis Research Center, For sale by the National Technical Information Service in [Cleveland, Ohio], [Springfield, Va
Written in English
|Statement||S. Bhattacharyya, W. Peterman and C. Hales.|
|Series||NASA CR -- 174705., NASA contractor report -- NASA CR-174705.|
|Contributions||Lewis Research Center., United States. Dept. of Energy. Office of Transportation Programs., IIT Research Institute.|
|The Physical Object|
Titolo: Tipo: Autore: Anno: Editore: Referenze: Ref. Pagine: Riassunto 1: Riassunto 2: Riassunto 3: $17 million autonomus sub for ft depths: Article. Iron magazine, May 1, Alkali Metal Compatability Testing of Candidate Heater Head Materials for a Stirling Engine Heat Transport System Noble, Jack E.; Hickman, Gary L.; IECEC 26th Conf. Proc. Vol 6\Stirling Engine Co. Stirling Engine Newsletter, Aug
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Creep-rupture behavior of candidate Stirling engine alloys after long-term aging at /sup 0/C in low-pressure hydrogen Technical Report Titran, R H Nine candidate Stirling automotive engine alloys were aged at /sup 0/C for h in low pressure hydrogen or argon to determine the resulting effects on mechanical behavior.
Bhattacharyya, S., W. Peterman, and C. Hales (c). Creep-rupture behavior of candidate Stirling engine iron superalloys in high-pressure hydrogen. Vol. II - Author: S. Bhattacharyya. The creep-rupture behavior of nine iron-base and one cobalt-base candidate Stirling engine alloys was evaluated at to /sup 0/C in 15 MPa H/sub 2/ and air.
The test alloys included six wrought alloys for tube application (CG, N, DL, 12 RN72, INCOLOY Alloy H, and A) and four. Bhattacharyya:Creep-Rupture Behavior of Six Candidate Stirling Engine Iron-Base Superalloys in High Pressure Hydrogen, Vol.I: “Air Creep-Rupture Behavior,” NASA CR, NASA-Lewis Research Center, Cleveland, OH, December Google ScholarCited by: 3.
REFERENCES Bhattacharyya, S. Creep-rupture behavior of six candidate Stirling engine iron-base superalloys in high pressure hydrogen. Volume 1 - Air creep-rupture behavior. NASA CR Bhattacharyya, S. (a). Creep-rupture behavior of six candidate Stirling engine superalloys tested in air.
of Mater. Technol., by: 1. Get this from a library. Creep-rupture behavior of candidate Stirling engine iron superalloys in high-pressure hydrogen.
Volume II, Hydrogen creep-rupture behavior. [S Bhattacharyya; Lewis Research Center.; United States. Department of Energy. Office of Transportation Programs.; IIT Research Institute.]. The creep-rupture behavior of six candidate Stirling engine iron-base superalloys was determined in air.
The alloys tested included four wrought alloys (A, INCOLOY® Alloy H* N, and DL) and two cast alloys (CRM-6D and XF). The wrought alloys were evaluated in Cited by: 5. Creep-rupture behavior of 6 candidate stirling engine iron-base superalloys in high pressure hydrogen.
Volume 1: Air creep-rupture behavior eBook: National Aeronautics and Space Administration NASA: : Kindle StoreAuthor: National Aeronautics and Space Administration NASA. Austenitic superalloys are often used in hydrogen and hydrogen-producing environments due to their good resistance to hydrogen effects.
There have been several studies on how hydrogen affects thresholds in bcc iron and steels and fcc superalloys, but very few on crack growth rates. Alloy chemistry and microstructural control to meet the demands of the automotive Stirling engine.
[Cleveland, Ohio: National Aeronautics and Space Administration, Lewis Research Center. MLA Citation. Stephens, Joseph R. and United States. Department of Energy. Office of Vehicle and Engine Research and Development. and Lewis Research Center. Download Citation | OnJ.A. Lee and others published Hydrogen embrittlement of nickel, cobalt and iron-based superalloys | Find, read and cite all the research you need on ResearchGate.
Creep oxidation behaviour and creep strength prediction for Alloy Article in International Journal of Pressure Vessels and Piping 87(6) June with 65 Reads How we measure 'reads'.
Creep-rupture and fractographic analysis of candidate Stirling engine superalloys tested in air. SciTech Connect. Bhattachryya, S. The creep-rupture behavior of six candidate Stir.
Iron alloys; Light metal alloys; Liquid alloys; Magnetic alloys; Metallic glasses; Nickel alloys; Nonferrous alloys; Order-disorder in alloys; Palladium alloys; Segregation (Metallurgy) Solder and soldering; Steel alloys; Ternary alloys; Tin alloys; Titanium alloys; Transition metal alloys; Used for:.
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See also what's at Wikipedia, your library, or elsewhere. Broader terms. FIX COPY ORNL/Sub//1 EQVE SEROEDGEY C= Status of Free Piston Stirling Engine Driven Heat PumpsDevelopment, Issues, and Options N^^^|5~~ ~Final Report E ^^--^P ;~~~~~ ~Repo.
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Contents Metals mining and processing. Behaviour and characterisation. Steel. Design, manufacture and applications. High temperature materials and power generation.
Creep-rupture reliability analysis. NASA Technical Reports Server (NTRS) Peralta-Duran, A.; Wirsching, P. A probabilistic approach to the correlation and extrapolat.
Full text of "Technical accomplishments of the NASA Lewis Research Center, " See other formats.December (No. 12) Plastic Flow of Iron Oxides and the Oxidation of Iron, J.D. Mackenzie, C.E. Birchenall.
17 Using Aluminum Alloys with Short Chain Aliphatic Acids and Anhydrides, A.B. McKee, W.W. Binger. 20 Static Electrode Potential Behavior of Aluminum and the Anodic Behavior of the Pure Metal and Its Alloys in Chloride Media, E.M.Materials and Engineering Catalog - Free download as PDF File .pdf), Text File .txt) or read online for free.
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