Strain-induced elastic moduli softening and associated fcc↔bcc transition in iron

W. S. Lai; X. S. Zhao

doi:10.1063/1.1815060

Strain-induced elastic moduli softening and associated fcc↔bcc transition in iron

W. S. Lai^*, X. S. Zhao

^*Corresponding author for this work

School of Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

Using molecular dynamics calculations we demonstrate that with decreasing the thickness of ultrathin body-centered-cubic (bcc) α-Fe film with (001) surfaces, the biaxial strain results in first bcc(001) → face-centered-cubic (fcc) (001) transition along the inverse Bain path due to softening of C₃₃, and then fcc(001)→bcc(011) because of shear modulus vanishing along fcc (110) directions. For the bulk fcc γ-Fe, the tensile biaxial strain along the Bain path transforms fcc (001) into bcc (001) with fcc〈110〉∥bcc〈100〉, while compressive strain results in shear instability, in agreement with recent ab initio calculations.

Original language	English
Pages (from-to)	4340-4342
Number of pages	3
Journal	Applied Physics Letters
Volume	85
Issue number	19
DOIs	https://doi.org/10.1063/1.1815060
Publication status	Published - 8 Nov 2004

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abstract = "Using molecular dynamics calculations we demonstrate that with decreasing the thickness of ultrathin body-centered-cubic (bcc) α-Fe film with (001) surfaces, the biaxial strain results in first bcc(001) → face-centered-cubic (fcc) (001) transition along the inverse Bain path due to softening of C33, and then fcc(001)→bcc(011) because of shear modulus vanishing along fcc (110) directions. For the bulk fcc γ-Fe, the tensile biaxial strain along the Bain path transforms fcc (001) into bcc (001) with fcc〈110〉∥bcc〈100〉, while compressive strain results in shear instability, in agreement with recent ab initio calculations.",

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N2 - Using molecular dynamics calculations we demonstrate that with decreasing the thickness of ultrathin body-centered-cubic (bcc) α-Fe film with (001) surfaces, the biaxial strain results in first bcc(001) → face-centered-cubic (fcc) (001) transition along the inverse Bain path due to softening of C33, and then fcc(001)→bcc(011) because of shear modulus vanishing along fcc (110) directions. For the bulk fcc γ-Fe, the tensile biaxial strain along the Bain path transforms fcc (001) into bcc (001) with fcc〈110〉∥bcc〈100〉, while compressive strain results in shear instability, in agreement with recent ab initio calculations.

AB - Using molecular dynamics calculations we demonstrate that with decreasing the thickness of ultrathin body-centered-cubic (bcc) α-Fe film with (001) surfaces, the biaxial strain results in first bcc(001) → face-centered-cubic (fcc) (001) transition along the inverse Bain path due to softening of C33, and then fcc(001)→bcc(011) because of shear modulus vanishing along fcc (110) directions. For the bulk fcc γ-Fe, the tensile biaxial strain along the Bain path transforms fcc (001) into bcc (001) with fcc〈110〉∥bcc〈100〉, while compressive strain results in shear instability, in agreement with recent ab initio calculations.

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Strain-induced elastic moduli softening and associated fcc↔bcc transition in iron

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