Advances in Cryogenic Engineering pp 577-586 | Cite as
Low Temperature Mechanical Properties of 300 Series Stainless Steel and Titanium
Conference paper
Abstract
In the past, considerable effort has been devoted to determining mechanical properties of engineering materials at temperatures below -319°F. However, the obtaining of instantaneous diameter measurements during tensile testing has not been attempted.
Keywords
Maximum Load True Strain Test Chamber True Stress Platen Displacement
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
Preview
Unable to display preview. Download preview PDF.
References
- 1.Final Report, Contract No. DA-19–020–505-ORD-4642.Google Scholar
- 2.T. S. DeSisto and D. E. Driscoll, “True-Stress True-Strain Computer,” WAL TR 111 23–1.Google Scholar
- 3.A.S. Elden and S.C. Collins, “Fracture and Yield of 1020 Steel at Low Temperatures,” J, App, Physics, AIP, Vol. 22, No. 12, p. 1296 (October, 1951).CrossRefGoogle Scholar
- 4.R. L. Smith and J. L. Rutherford, “Tensile Properties of Zone Refined Iron in the Temperature Range from 298° to 4.2°K,” Trans. AIME, (July, 1957).Google Scholar
- 5.E.T. Wessel, “Metals at Low Temperatures,” Trans. ASM, Vol. 49, p, 149 (1957).Google Scholar
- 6.G.W. Powell, E.R. Marshall and W.A. Backofen, “Strain Hardening of Austenitic Stainless Steel,” Trans. ASM, Vol. 50, p. 478 (1958).Google Scholar
Copyright information
© Springer Science+Business Media New York 1961