B. L. Shen scite author profile

A systematic study on the fracture surface of brittle Mg-, Fe-, and Co-based metallic glasses under compressive loading is approached and a fracture mechanism is proposed. Experimentally, the metallic glass samples are compressed into many small fragments, displaying an explosion fracture feature. Therefore, an energy equilibrium model is employed to describe the fracture processes of those brittle metallic glasses. Furthermore, some regular nanoscale steps, which were scarcely discovered, are found on the mirror region on their fracture surfaces. It is suggested that such nanoscale steps are associated with the energy distribution in metallic glasses and are created by the shear waves generated by the instability of crack propagation during the explosion rupture processes. Based on the comparison of experimental observations with numerical calculations, we recommend a novel model for interpreting the development of nanoscale steps on the dynamic fracture surfaces of these brittle metallic glasses, which appropriately describes the experimental findings.

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Size Effect on Shear Fracture and Fragmentation of a Fe_57.6Co_14.4B_19.2Si_4.8Nb₄ Bulk Metallic Glass

Zhang

Shen

et al. 2008

Adv Eng Mater

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Nanocrystallization induced by quasi-static fracture of metallic glasses at room temperature

Fan

Zhang

Mao

et al. 2008

Philosophical Magazine Letters

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B. L. Shen

Wavy cleavage fracture of bulk metallic glass

Fracture mechanism of some brittle metallic glasses

Size Effect on Shear Fracture and Fragmentation of a Fe_57.6Co_14.4B_19.2Si_4.8Nb₄ Bulk Metallic Glass

Nanocrystallization induced by quasi-static fracture of metallic glasses at room temperature

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About

B. L. Shen

Wavy cleavage fracture of bulk metallic glass

Fracture mechanism of some brittle metallic glasses

Size Effect on Shear Fracture and Fragmentation of a Fe57.6Co14.4B19.2Si4.8Nb4 Bulk Metallic Glass

Nanocrystallization induced by quasi-static fracture of metallic glasses at room temperature

Contact Info

Product

Resources

About

Size Effect on Shear Fracture and Fragmentation of a Fe_57.6Co_14.4B_19.2Si_4.8Nb₄ Bulk Metallic Glass