PART IV - Communications - The Microyield Strength of Beryllium-Iron Alloys
- Organization:
- The American Institute of Mining, Metallurgical, and Petroleum Engineers
- Pages:
- 2
- File Size:
- 560 KB
- Publication Date:
- Jan 1, 1968
Abstract
From their study of the anisotropy of grain boundary mobility in aluminum, the authors conclude that tilt boundaries have a higher mobility than twist boundaries because the atomic misfit at the pure-twist boundary is relatively small compared to the misfit at a tilt boundary for a given amount of misorientation. If this is true, then one would expect a twist boundary to have a lower grain boundary energy than the corresponding tilt boundary. Fig. 6, taken from the work of Gjostein and Rhines,10 shows that this is indeed the case for [001]-cu tilt and twist boundaries in the high-angle region, thus lending support to the authors' conclusion.
Citation
APA: (1968) PART IV - Communications - The Microyield Strength of Beryllium-Iron Alloys
MLA: PART IV - Communications - The Microyield Strength of Beryllium-Iron Alloys. The American Institute of Mining, Metallurgical, and Petroleum Engineers, 1968.