Steven Rios scite author profile

Steven Rios

5Publications

96Citation Statements Received

13Citation Statements Given

How they've been cited

164

How they cite others

162

Affiliations

New York City Fire Department, Texas A&M University, Texas State University

Publications

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Modeling of sharp change in magnetic hysteresis behavior of electrical steel at small plastic deformation

Sablik

Rios

Landgraf³

et al. 2005

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In 2.2% Si electrical steel, the magnetic hysteresis behavior is sharply sheared by a rather small plastic deformation ͑0.5%͒. A modification to the Jiles-Atherton hysteresis model makes it possible to model magnetic effects of plastic deformation. In this paper, with this model, it is shown how a narrow hysteresis with an almost steplike hysteresis curve for an undeformed specimen is sharply sheared by plastic deformation. Computed coercivity and hysteresis loss show a sharp step to higher values at small strain due to an n =1/2 power law dependence on residual strain. The step is seen experimentally.

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Size and stress dependent hydrogen desorption in metastable Mg hydride films

Ham

Junkaew

Arróyave

et al. 2014

International Journal of Hydrogen Energy

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Strengthening mechanisms of Ag/Ni immiscible multilayers with fcc/fcc interface

Kobayashi

Liu

Rios

et al. 2013

Surface and Coatings Technology

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A formation mechanism for ultra-thin nanotwins in highly textured Cu/Ni multilayers

Liu

Bufford

Rios

et al. 2012

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High density nanotwins with average twin thickness varying from 3 to 6 nm are formed in sputtered highly (111) textured Cu/Ni multilayers, when individual layer thickness is 25 nm or less. Twin interfaces are normal to growth direction. Both maximum twin thickness and volume fraction of twins vary with the individual layer thickness. Coherency stress plays an important role in tailoring the formation of nanotwins. Nanotwins compete with misfit dislocations in accommodating elastic strain energy in epitaxial Cu/Ni multilayers.

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Magnetic field induced phase transformation in polycrystalline NiCoMnAl thin films

Rios

Bufford

Караман

et al. 2013

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NiCoMnAl thin films were deposited onto unheated substrates using dc magnetron co-sputtering. The microstructure of as-deposited films consisted of nanocrystals in an amorphous matrix and did not exhibit a martensitic phase transformation. After heat treatment, films crystallized into a B2 austenite phase, which exhibited a magnetic field induced martensitic phase transformation. The level of the change in the martensitic transformation temperatures in the magnetic field was determined to be ∼2.1 K/T. The films exhibited non-reversible magnetic field induced martensite to austenite transformation due to the large thermal hysteresis.

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Steven Rios

Modeling of sharp change in magnetic hysteresis behavior of electrical steel at small plastic deformation

Size and stress dependent hydrogen desorption in metastable Mg hydride films

Strengthening mechanisms of Ag/Ni immiscible multilayers with fcc/fcc interface

A formation mechanism for ultra-thin nanotwins in highly textured Cu/Ni multilayers

Magnetic field induced phase transformation in polycrystalline NiCoMnAl thin films

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