论文信息 - Behavior of Dislocations in Copper under Reverse Stress

Behavior of Dislocations in Copper under Reverse Stress

Movement of dislocations induced by unloading and reverse stressing have been directly observed in copper by the in-situ observation technique with a 3MV-class electron microscope. By unloading, isolated dislocations in the interior of cells make backward movements after inverted their bowing direction. When the stress is applied in the reverse direction, these isolated dislocations are swept away from the interior of cells, and dislocations in cell walls begin to move. In this case, both position and dislocation density of cell walls are scarcely changed during deformation until the reverse stress reaches the prestress level. In the stress range higher than the prestress level, the cell structure is developed around these pre-existing cell walls in the same way as in the case of forward deformation. These results are discussed in terms of the nature of cell walls.

H. Fujita | H. Mori

[1] H. Fujita,et al. Behavior of individual dislocations in LiF under alternating stresses , 1974 .

[2] H. Fujita,et al. The effect of grain size and deformation sub-structure on mechanical properties of polycrystalline aluminum , 1973 .

[3] J. Mitchell,et al. Etch pit studies of dislocation arrangements resulting from the deformation of single crystals of copper 7.5 at.% aluminium alloys , 1972 .

[4] K. Marukawa,et al. Stability of the work hardened state against stress reversal in copper single crystals , 1971 .

[5] J. M. Roberts,et al. Back recovery microstrains in stage II deformation of copper , 1970 .

[6] G. Vellaikal. Some observations on microyielding in copper polycrystals , 1969 .

[7] A. Howie,et al. Early stages of fatigue in copper single crystals , 1969 .

[8] A. Argon,et al. Deformation of copper in easy glide , 1968 .

[9] H. Fujita. Continuous Observation of Dynamic Behaviors of Dislocations in Aluminum , 1967 .

[10] J. Mitchell,et al. THE NATURE AND FORMATION OF BANDS OF DEFORMATION IN SINGLE CRYSTALS OF α-PHASE COPPER–ALUMINIUM ALLOYS , 1967 .

[11] R. L. Woolley. LXIV. The Bauschinger effect in some face-centred and body-centred cubic metals , 1953 .