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Literature DB >> 17026174

Cooperative shear model for the rheology of glass-forming metallic liquids.

Marios D Demetriou¹, John S Harmon, Min Tao, Gang Duan, Konrad Samwer, William L Johnson.

Abstract

A rheological law based on the concept of cooperatively sheared flow zones is presented, in which the effective thermodynamic state variable controlling flow is identified to be the isoconfigurational shear modulus of the liquid. The law captures Newtonian as well as non-Newtonian viscosity data for glass-forming metallic liquids over a broad range of fragility. Acoustic measurements on specimens deformed at a constant strain rate correlate well with the measured steady-state viscosities, hence verifying that viscosity has a unique functional relationship with the isoconfigurational shear modulus.

Year: 2006 PMID： 17026174 DOI： 10.1103/PhysRevLett.97.065502

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

8 in total

Cooperative shear model for the rheology of glass-forming metallic liquids.

1. Compositional landscape for glass formation in metal alloys.

2. Origin of embrittlement in metallic glasses.

3. A damage-tolerant glass.

4. Robust scaling of strength and elastic constants and universal cooperativity in disordered colloidal micropillars.

5. Proposal for universality in the viscosity of metallic liquids.

6. Localized crystallization in shear bands of a metallic glass.

7. Quantifying the origin of metallic glass formation.

8. Decoupling between calorimetric and dynamical glass transitions in high-entropy metallic glasses.