2013
DOI: 10.1002/adma.201300655
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Mechanical Loss in Multiferroic Materials at High Frequencies: Friction and the Evolution of Ferroelastic Microstructures

Abstract: Energy absorption in multiferroic materials stems typically from strain relaxation which can be strong even when no extrinsic defects exist in the material. Computer simulations of a simple two-dimensional model on a generic, proper ferroelastic material identify the dissipative mechanisms associated with the dynamical motion as: a) advance and retraction of needle-shaped twin domains and, b) movement of kinks inside twin boundaries. Both movements involve friction losses.

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Cited by 31 publications
(28 citation statements)
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“…1(a)), with values similar to results from previous quasistatic simulations. [7][8][9][10] Increasing the strain rate decreases the yield energy from 4 meV/atom at 5 Â 10 À6 s À1 , to 0.5 meV/atom at 5 Â 10 À5 s À1 (Fig. 1(b)), and to values smaller than 0.01 meV/atom at 10 À4 s À1 (Fig.…”
Section: -6951/2014/104(16)/162906/4mentioning
confidence: 94%
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“…1(a)), with values similar to results from previous quasistatic simulations. [7][8][9][10] Increasing the strain rate decreases the yield energy from 4 meV/atom at 5 Â 10 À6 s À1 , to 0.5 meV/atom at 5 Â 10 À5 s À1 (Fig. 1(b)), and to values smaller than 0.01 meV/atom at 10 À4 s À1 (Fig.…”
Section: -6951/2014/104(16)/162906/4mentioning
confidence: 94%
“…The details of properties obtained by this potential are described in our previous work. [7][8][9][10] The equilibrium unit cell is in shape of parallelogram with the shear angle of 4 . We set the equilibrium lattice constant a ¼ 1 Å and atomic mass to M ¼ 100 amu.…”
Section: -6951/2014/104(16)/162906/4mentioning
confidence: 99%
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“…3(a)), with values similar to results from previous quasi-static simulations. [31][32][33][34] Increasing the strain rate decreases the yield energy from 4 meV/atom at 5×10 −6 τ −1 , to 0.5 meV/atom at 5×10 −5 τ −1 (Fig. 3(a)), and to values smaller than 0.01 meV/atom at 10 −4 τ −1 (Fig.…”
Section: -5mentioning
confidence: 98%