Article ID Journal Published Year Pages File Type
734985 Optics and Lasers in Engineering 2016 9 Pages PDF
Abstract

•The compressive plasticity of laser peened BMG has been improved.•Multiple shear bands are observed on the side fracture surface of laser peened BMG.•Numerical simulation is performed to explain quantitatively the plasticity enhancement.•Stress analysis on the fracture planes of both samples is discussed in detail.

The compressive deformation and the plastic behavior of Zr35Ti30Cu8.25Be26.75 bulk metallic glass (BMG) in as-cast and laser peened state were investigated. It was found that as-cast sample displayed brittle fracture with an limited plastic strain of 0.22% and the fracture was mainly localized on one single shear band. For laser peened sample, an apparent plastic strain of 1.48% could be observed in the stress-strain curve, which was much greater than that of as-cast sample. Scanning electron microscope observations revealed that the normal fracture surfaces of both samples displayed a shear mode and consisted of vein-like structure. The relatively uniform distribution of multiple shear bands was observed on the side fracture surface of laser peened sample. Numerical simulation was performed to understand quantitatively the plasticity enhancement of laser peened sample. Under the effect of LSP induced residual stress, the laser peened sample exhibited a larger concentrated stress around the main shear stress plane which could promote the initiation of new shear bands. Besides, the increased free volume in main shear stress plane were beneficial for the generation of multiple shear bands which would probably improve the compressive plasticity of Zr-based BMG.

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Physical Sciences and Engineering Engineering Electrical and Electronic Engineering
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