The strain amplitude dependent damping in iron

1 December 1971

journal article
research article
Published by Taylor & Francis in Philosophical Magazine

Vol. 24 (192) , 1459-1464
https://doi.org/10.1080/14786437108217424

Abstract

The strain amplitude dependent damping in pure polycrystalline iron has been determined as a function of grain size at a frequency of approximately 1 HZ, and has been shown to consist of two stages. At low strain amplitudes the damping follows the Granato–Lücke law but at higher strain amplitudes the damping can be explained in terms of the model postulated by Peguin, Perez and Gobin (1967). The strain amplitude at which stage one gives way to stage two decreases with increasing grain size. From an analysis of the second stage of damping an activation volume of 1·3 × 10⁻²¹ cm³ has been calculated.

Keywords

This publication has 8 references indexed in Scilit:

Analysis of thermally-activated flow in iron single crystals
Acta Metallurgica, 1970
The Influence of Internal Stress Fields on the Velocity of Dislocations
Physica Status Solidi (b), 1969
Dislocation Pinning and Temperature Dependence of Internal Friction
Journal of Applied Physics, 1967
Dislocation Damping of Zone Refined Aluminium Doped with Cu
Physica Status Solidi (b), 1965
Theory of the Thermal Breakaway of a Pinned Dislocation Line with Application to Damping Phenomena
Journal of Applied Physics, 1964
High-Amplitude Internal Friction and Its Relation to Fatigue
Published by Springer Nature ,1964
Internal Friction and Critical Stress of Copper Alloys
Journal of the Physics Society Japan, 1956
Theory of Mechanical Damping Due to Dislocations
Journal of Applied Physics, 1956