Institute of Metals Division - The Effect of Surface Adsorption of Gas on Crack Propagation
- Organization:
- The American Institute of Mining, Metallurgical, and Petroleum Engineers
- Pages:
- 2
- File Size:
- 668 KB
- Publication Date:
- Jan 1, 1960
Abstract
IN a previous study of the effect of atmosphere on creep-rupture properties,' it was shown that the relative strength of nickel in air and in vacuum may be reversed by a change in either stress or temperature, Fig. 1. At low stresses and high temperatures the metal is stronger in air but stronger in vacuum at high stresses and low temperatures. A mechanism to explain this reversal was proposed involving two competing processes; oxidation strengthens the metal while adsorption of gas lowers the surface energy, relative to that in vacuum, and reduces the work required to propagate a crack. The process which controls is determined by stress and temperature. In a number of private communications, however, the objection has been made that even in the vacuum of objection mm of Hg used in this study, the surface of a
Citation
APA: (1960) Institute of Metals Division - The Effect of Surface Adsorption of Gas on Crack Propagation
MLA: Institute of Metals Division - The Effect of Surface Adsorption of Gas on Crack Propagation. The American Institute of Mining, Metallurgical, and Petroleum Engineers, 1960.