Controlled Rejuvenation of Amorphous Metals with Thermal Processing

• Main Authors: Wakeda, Masato (Author), Saida, Junji (Author), Li, Ju (Contributor), Ogata, Shigenobu (Author)
• Other Authors: Massachusetts Institute of Technology. Department of Nuclear Science and Engineering (Contributor)
• Format: Article
• Language: English
• Published: Nature Publishing Group, 2015-09-10T16:53:23Z.
• Subjects: Article
• Online Access: Get fulltext

 Rejuvenation is the configurational excitation of amorphous materials and is one of the more promising approaches for improving the deformability of amorphous metals that usually exhibit macroscopic brittle fracture modes. Here, we propose a method to control the level of rejuvenation through systematic thermal processing and clarify the crucial feasibility conditions by means of molecular dynamics simulations of annealing and quenching. We also experimentally demonstrate rejuvenation level control in Zr[subscript 55]Al[subscript 10]Ni[subscript 5]Cu[subscript 30] bulk metallic glass. Our local heat-treatment recipe (rising temperature above 1.1T[subscript g], followed by a temperature quench rate exceeding the previous) opens avenue to modifying the glass properties after it has been cast and processed into near component shape, where a higher local cooling rate may be afforded by for example transient laser heating, adding spatial control and great flexibility to the processing.