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Giant Nonhysteretic Responses of Two-Phase Nanostructured Alloys
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Abstract
A new class of functional materials with giant nonhysteretic strain responses to applied
fields is considered. They are decomposed two-phase systems consisting of single-domain
nanoprecipitates of a low-symmetry phase. Their strain response is caused by the field-induced
change of structural orientation of the domain states of these precipitates. The superresponse
follows from the novel concept of structural anisotropy that is analogous to the magnetic
anisotropy. Its vanishing produces a new glasslike structural state. The developed
phase field theory and modeling allow us to formulate criteria for searching superresponsive
two-phase nanostructured alloys.
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