Change of the deformation mechanism (slip ⇄ twinning) in polycrystalline α-iron

Change in deformation mode in six types of g domain (A M ±C T ) and a 2 plates in TiAl polysynthetically twinned (PST) crystals fatigued at a loading axis parallel to lamellar planes with stress amplitude (Ds ) of 420±450 MPa was examined by the transmission electron microscope focusing on continuit

Crack initiation and propagation in polycrystalline metals and alloys can be characterized by the crack driving force and the resistance to fracture. Interfaces such as grain, sub-grain and interphase boundaries are microstructural features that can resist crack propagation. For iron-silicon polycry

## In tensile tests on polycrystalline 3 'A silicon iron in the pre-yield microstrain region, slip bands are nucleated at grain boundaries. The conditions which determine whether they propagate across a grain are elucidated. A simple model is proposed to explain the characteristics of those slip