Abstract: A technique is disclosed for straining an amorphous alloy at ambient temperature to plastically and homogeneously deform the amorphous alloy, such that at least an exterior surface of the deformed amorphous alloy is substantially free of shear bands. An amorphous alloy may be strained at a rate of less than about 9×10?5 s?1 or by multiple passes of cold rolling. A pattern from a die may be imprinted into the amorphous alloy when strained, and the amorphous alloy may be used as a die to plastically strain other materials.

Abstract: A technique for forming a material including nanotwinned silver crystals in solid solution with a solute that exhibits enhanced strength and desirable electrical conductivity, as compared to coarse-grained material. Synthesis of nanotwinned silver alloy material is achieved by cooling of a substrate and co-deposition of silver and the solute. Controlling the processing conditions of synthesis allows for tailoring of the nanostructure and mechanical properties of the nanotwinned silver alloy material. A material including nanotwinned silver crystals in solid solution with a solute also is described.

Abstract: A technique is disclosed for straining an amorphous alloy at ambient temperature to plastically and homogeneously deform the amorphous alloy, such that at least an exterior surface of the deformed amorphous alloy is substantially free of shear bands. An amorphous alloy may be strained at a rate of less than about 9×10?5 s?1 or by multiple passes of cold rolling. A pattern from a die may be imprinted into the amorphous alloy when strained, and the amorphous alloy may be used as a die to plastically strain other materials.

Abstract: A technique for forming a material including nanotwinned silver crystals in solid solution with a solute that exhibits enhanced strength and desirable electrical conductivity, as compared to coarse-grained material. Synthesis of nanotwinned silver alloy material is achieved by cooling of a substrate and co-deposition of silver and the solute. Controlling the processing conditions of synthesis allows for tailoring of the nanostructure and mechanical properties of the nanotwinned silver alloy material. A material including nanotwinned silver crystals in solid solution with a solute also is described.