Deformation Behavior of Mg-Ni-Y Alloy with Long Period Stacking Ordered Phase

Takaomi Itoi; Ryu Ichikawa; Mitsuji Hirohashi

doi:10.4028/www.scientific.net/MSF.706-709.1176

Paper Titles

Roll Casting of Clad Strip
p.1152

Microstructural Factors Affecting the Deformation Behavior of Mg₁₂ZnY LPSO-Phase Alloys
p.1158

Formability of Magnesium-Lithium Alloy Sheet by Multi-Stage Deep Drawing
p.1164

Experimental Study on Phase Diagram in the Vicinity of X or W Phase in the Mg-Zn-Y Ternary System
p.1170

Deformation Behavior of Mg-Ni-Y Alloy with Long Period Stacking Ordered Phase
p.1176

Control of the Nugget Nanostructure of Mg₉₆Zn₂Y₂ Welded by Resistance Spot Welding
p.1181

Microstructure and Mechanical Properties of Mg₉₆Zn₂Y₂ Joints Welded by Resistance Spot Welding
p.1187

Dynamic Strain Aging Behavior of a Mg-Ce Alloy and its Implications for Extrusion
p.1193

Microstructure and Mechanical Properties of Extruded Mg-Zn-Ce-Zr Alloy Rods
p.1199

HomeMaterials Science ForumMaterials Science Forum Vols. 706-709Deformation Behavior of Mg-Ni-Y Alloy with Long...

Deformation Behavior of Mg-Ni-Y Alloy with Long Period Stacking Ordered Phase

Abstract:

Microstructures of the long period stacking ordered (LPSO) phase deformed by compression test or rolling at room temperature were investigated. The Mg₈₅Ni₆Y₉(at.%) alloy was composed mostly of plate-type phase with 10H-type LPSO structure. The Mg₈₅Ni₆Y₉alloy exhibited compression yield stress of 365 MPa and fracture strain of 30 % at room temperature. After compression test with applied stress of 25 %, a bend, delamination between basal planes and crack initiation at boundary of the LPSO phase were observed. From these microstructural features, it was considered that the deformation of the LPSO phase significantly influenced by a kink deformation. The Mg₈₅Ni₆Y₉ alloy could be rolled with 30 % reduction at room temperature. The kink deformation was frequently observed in the LPSO phase of the alloy sheet. The basal plane texture was formed in plane sheet of the alloy sheet. However, it was more difficult to form basal plane texture in the LPSO phase than in the pure-Mg due to introduce the kink deformation. Therefore, it was considered that better rollability of the Mg₈₅Ni₆Y₉alloy compared with the pure-Mg was brought for the kink deformation.