Brandon Free scite author profile

The magnetic and magnetocaloric properties of a series of minutely doped Mn5-xFexGe3 compounds that exhibit the D88-type hexagonal crystal structure at room temperature have been investigated. For all Fe concentrations, the alloys are ferromagnetic and undergo a second-order ferromagnetic-to-paramagnetic transition near room temperature. Although the small Fe doping had little effect on the ferromagnetic transition temperatures of the system, changes in the saturation magnetization and magnetic anisotropy were observed. For x≤0.15, all compounds exhibit nearly the same magnetic entropy change of ~7 J/kg K, for a field change of 50 kOe. However, the magnitude of the refrigerant capacities increased with Fe doping, with values up to 108.5 J/kg and 312 J/kg being observed for field changes of 20 kOe and 50 kOe, respectively. As second-order phase transition materials, the Mn5-xFexGe3 compounds are not subject to the various drawbacks associated with first-order phase transition materials yet exhibit favorable magnetocaloric effects.

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25. Sentinel Lymph Node Positivity in Cutaneous Melanoma and its Correlation to a 31 Gene-expression Profile Test and Two Lymph Node Risk Calculators

Waldron

Lin

Oxford

et al. 2023

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Brandon Free

3D printing of an interpenetrating network hydrogel material with tunable viscoelastic properties

Measurement of atmospheric corrosion fatigue crack growth rates on AA7085-T7451

The Effect of Fe Doping on the Magnetic and Magnetocaloric Properties of Mn_5−xFe_xGe₃

25. Sentinel Lymph Node Positivity in Cutaneous Melanoma and its Correlation to a 31 Gene-expression Profile Test and Two Lymph Node Risk Calculators

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Brandon Free

3D printing of an interpenetrating network hydrogel material with tunable viscoelastic properties

Measurement of atmospheric corrosion fatigue crack growth rates on AA7085-T7451

The Effect of Fe Doping on the Magnetic and Magnetocaloric Properties of Mn5−xFexGe3

25. Sentinel Lymph Node Positivity in Cutaneous Melanoma and its Correlation to a 31 Gene-expression Profile Test and Two Lymph Node Risk Calculators

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Product

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The Effect of Fe Doping on the Magnetic and Magnetocaloric Properties of Mn_5−xFe_xGe₃