Creep-rupture data for the refractory metals to high temperatures |
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Contents
Introduction | 1 |
Experimental Techniques | 75 |
Creep Data Analysis | 129 |
Copyright | |
7 other sections not shown
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Common terms and phrases
activation energy alloy sheet tested alloy tested analysis Andrade annealed arc-cast molybdenum arc-cast tungsten argon as-received calculated carbon CM CM CM comparison constant stress creep behavior creep curve creep data creep equation creep rate data creep resistance creep-rupture behavior Creep-rupture data data for arc-cast data obtained diameter ductility effect electron-beam-melted elongation employed evaluation experimental Figure 9 Flagella furnace gage section grain heating High Temperature homologous temperature hours Figure hydrogen hyperbolic sine indicated isotherms linear creep rate load log tR logarithmic Manson-Haferd melting minimum creep rate Nb-lZr niobium nitrogen oxygen percent powder metallurgy presented in Figure presented in Table recrystallized refractory metals reported rhenium rupture data rupture strength shown in Figure sintered slope specimen stacking fault energy steady-state creep strain stress-relieved Stress-rupture data Ta-lOW tantalum test temperature tested in vacuum Titran torr unalloyed values wrought yield
Bibliographic information
| Title | Creep-rupture data for the refractory metals to high temperatures |
| Authors | Joseph B. Conway, P. N. Flagella, U.S. Atomic Energy Commission. Division of Reactor Development and Technology |
| Edition | illustrated |
| Publisher | Gordon and Breach, 1971 |
| Original from | the University of Wisconsin - Madison |
| Digitized | 15 May 2008 |
| ISBN | 0677026609, 9780677026602 |
| Length | 787 pages |
| Subjects | › Creep Fatigue Heat resistant alloys Metals Metals at high temperatures Technology & Engineering / Materials Science Technology & Engineering / Mechanical |
| Export Citation | BiBTeX EndNote RefMan |