Effects of annealing at high pressure on structure and mechanical properties of Al87Ni7Gd6 metallic glass

• Published in: Intermetallics Vol. 10; no. 11-12; pp. 1099 - 1103
• Main Authors: Ko, B.C, Wesseling, P, Vatamanu, O.L, Shiflet, G.J, Lewandowski, J.J
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.11.2002
• Subjects: B. Glasses, metallic; C. Extrusion; Hot isostatic pressing; Mechanical properties at ambient temperatures; Precipitates; Mechanical properties at ambient temperatures; C. Extrusion; B. Glasses, metallic; Precipitates; Hot isostatic pressing
• ISSN: 0966-9795; 1879-0216
• DOI: 10.1016/S0966-9795(02)00164-4

The effects of annealing and annealing with a superimposed pressure of 940 MPa on the primary crystallization behaviour of α-Al and the resulting micro-hardness have been studied for as-quenched Al87Ni7Gd6 metallic glass. Isothermal annealing experiments were conducted for 30 min at 188 °C, 191 °C, and 205 °C in silicone oil maintained either at atmospheric pressure (i.e. 0.1 MPa) or at 940 MPa. XRD analyses detected the evolution of structure with annealing at 0.1 MPa, while specimens annealed with 940 MPa pressure exhibited sharper diffraction peaks than those annealed at 0.1 MPa. DSC measurements were conducted on the as-received amorphous ribbons as well as ribbons annealed at different temperatures at either 0.1. MPa or with 940 MPa superimposed pressure. Specimens annealed with 940 MPa pressure exhibited higher onset temperatures (i.e. Tx1) and temperatures for the first exothermic peak (i.e. Tp1) for primary crystallization. TEM measurements revealed an increase in the volume fraction of α-Al with increases in annealing temperature, while micro-hardness measurements revealed an increase in hardness with increasing amounts of α-Al. Specimens annealed with 940 MPa pressure exhibited further increases in both the volume fraction of α-Al and resulting micro-hardness.