Effect of laser shock peening on the plasticity of Zr-based metallic glass under compression

Abstract

The surface of Zr41.2Ti13.8Cu12.5Ni10Be22.5 BMG was modified in this study using LSP to enhance its compressive mechanical properties.The microstructures and thermal properties of the as-cast and laser-peened specimens were characterized using X-ray diffraction and differential scanning calorimetry, respectively. The results indicated that crystallization did not occur in the laser-peened area. Compared to the as-cast metallic glass, the LSP-treated specimen had a higher free volume. The LSP-treated specimen, as compared to the as-cast specimen with a slight plastic strain of 8.1 % prior to final fracture, exhibited an improved compressive plastic strain of 18.8 %. Based on results of the hardness tests, a significant change in microhardness was observed in the specimen after the LSP treatment. The improved plasticity and decreased hardness of the laser-peened specimen were due to the excess free volume in the laser treated surface zone. Scanning electron microscopy observations of the fracture surfaces revealed that the LSP-treated specimen formed multiple shear bands and highly dense vein-like patterns. This study provides a novel method for increasing the plasticity of metallic glasses to promote their industrial application.