The yield point phenomenon in ultrafine-grained dilute Mg-Zn-Y alloys

“…Although the present FeNiAlC steels have interstitial carbon, this simple mechanism cannot explain multiple propagation of Lüders-type bands in the FeNiAlC steels. Besides the above mechanism of dislocation locking by interstitial atoms, the Lüders deformation has also been found in ultrafine grained materials including pure metals 3843) and alloys, 44,45) which do not usually show the yield point phenomenon in coarse grain sizes. In these ultrafine grained materials, the discontinuous yielding is attributed to the lack of initial mobile dislocations in the annealed ultrafine grained materials.…”

Mechanical Properties and Deformation Behavior in Severely Cold-Rolled Fe–Ni–Al–C Alloys with Lüders Deformation —Overview with Recent Experimental Results—

“…Although the present FeNiAlC steels have interstitial carbon, this simple mechanism cannot explain multiple propagation of Lüders-type bands in the FeNiAlC steels. Besides the above mechanism of dislocation locking by interstitial atoms, the Lüders deformation has also been found in ultrafine grained materials including pure metals 3843) and alloys, 44,45) which do not usually show the yield point phenomenon in coarse grain sizes. In these ultrafine grained materials, the discontinuous yielding is attributed to the lack of initial mobile dislocations in the annealed ultrafine grained materials.…”

Mechanical Properties and Deformation Behavior in Severely Cold-Rolled Fe–Ni–Al–C Alloys with Lüders Deformation —Overview with Recent Experimental Results—

The microstructure and anisotropic deformation behavior of rapidly solidified ribbon consolidated Mg-Zn-X (X = Y, Gd, Nd) alloys

Direct aging of additively manufactured A20X aluminum alloy