THE EFFECT OF DEFORMATION ON THE INTERNAL FRICTION OF IRON MEASURED AT THE CARBON PEAK POSITION
- 1 December 1959
- journal article
- Published by Canadian Science Publishing in Canadian Journal of Physics
- Vol. 37 (12) , 1474-1481
- https://doi.org/10.1139/p59-167
Abstract
Experiments have been carried out to investigate the influence of deformation on the internal friction of iron measured at the carbon peak. As a result of deformation the internal friction increased and then decreased with time. These changes, corrected for a background change associated with the deformation, were shown to follow a time law predicted for carbon segregation to dislocations. It is concluded that the amount of carbon in random solid solution is increased by the deformation. By analyzing the rate of decrease of internal friction following deformation in terms of strain-aging theory the final dislocation densities were determined. The results also indicate that in some cases the carbon put into solution by the deformation was initially present in the form of iron carbide particles.Keywords
This publication has 8 references indexed in Scilit:
- Stress-Assisted Precipitation on DislocationsJournal of Applied Physics, 1959
- The role of dislocations in carbide precipitation in α-ironActa Metallurgica, 1958
- The effects of grain size and texture on the internal friction in α-iron due to interstitial solutesActa Metallurgica, 1958
- A method for the measurement of elastic relaxation, and its use for determination of the solubility of carbon in α-ironActa Metallurgica, 1955
- The segregation of carbon in iron single crystals as studied by torsion pendulum dampingActa Metallurgica, 1955
- The diffusion of carbon in alpha ironJournal of Computers in Education, 1954
- Precipitation of Carbon and Nitrogen in Cold-Worked Alpha-IronPhysical Review B, 1951
- Dislocation Theory of Yielding and Strain Ageing of IronProceedings of the Physical Society. Section A, 1949