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![Nano-structuring of all-d-metal NiCoMnTi-based Heusler compounds](/sites/all/modules/islandora_solr_search/images/defaultimg.png)
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Nano-structuring of all-d-metal NiCoMnTi-based Heusler compounds
![Impact of fast-solidification on all-d-metal NiCoMnTi based giant magnetocaloric Heusler compounds](/islandora/object/uuid:4c4e19f9-87a1-435d-81bd-9ab5e43bea05/datastream/TN/view)
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Impact of fast-solidification on all-d-metal NiCoMnTi based giant magnetocaloric Heusler compounds
![Impact of W doping on Fe-rich (Mn,Fe)<sub>2</sub>(P,Si) based giant magnetocaloric materials](/islandora/object/uuid:ba83a0e2-9eb2-4360-a16c-6a13be672e3a/datastream/TN/view)
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Impact of W doping on Fe-rich (Mn,Fe)2(P,Si) based giant magnetocaloric materials
![Effect of off-stoichiometry and Ta doping on Fe-rich (Mn,Fe)<sub>2</sub>(P,Si) based giant magnetocaloric materials](/islandora/object/uuid:821c8c90-7c81-489c-9f61-a83790267790/datastream/TN/view)
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Effect of off-stoichiometry and Ta doping on Fe-rich (Mn,Fe)2(P,Si) based giant magnetocaloric materials
![Strong magnetoelastic coupling in MnCoSi compounds studied in pulsed magnetic fields](/islandora/object/uuid:e97f4676-cd58-4168-9c68-5e1f807f3144/datastream/TN/view)
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Strong magnetoelastic coupling in MnCoSi compounds studied in pulsed magnetic fields
![Exploring the negative thermal expansion and magnetocaloric effect in Fe<sub>2</sub>(Hf,Ti) Laves phase materials](/islandora/object/uuid:7289a4ad-77c2-49eb-9766-7b30df63cb7e/datastream/TN/view)
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Exploring the negative thermal expansion and magnetocaloric effect in Fe2(Hf,Ti) Laves phase materials
![Competing magnetic interactions, structure and magnetocaloric effect in Mn<sub>3</sub>Sn<sub>1-x</sub>Zn<sub>x</sub>C antiperovskite carbides](/islandora/object/uuid:f64e46ca-e272-4532-a124-5d642f486f9a/datastream/TN/view)
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Competing magnetic interactions, structure and magnetocaloric effect in Mn3Sn1-xZnxC antiperovskite carbides
![Magnetoelastic transition and negative thermal expansion of Fe<sub>2</sub>Hf<sub>0.83</sub>Ta<sub>0.17</sub> ribbons](/islandora/object/uuid:df02f546-4efa-4299-82ba-185b9e478f7a/datastream/TN/view)
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Magnetoelastic transition and negative thermal expansion of Fe2Hf0.83Ta0.17 ribbons
![Magnetocaloric effect in the (Mn,Fe)<sub>2</sub>(P,Si) system](/islandora/object/uuid:e4c0a283-4419-481c-b95b-2d0c34bd249f/datastream/TN/view)
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Magnetocaloric effect in the (Mn,Fe)2(P,Si) system: From bulk to nano
![Enhanced reversibility of the magnetoelastic transition in (Mn,Fe)<sub>2</sub>(P,Si) alloys via minimizing the transition-induced elastic strain energy](/islandora/object/uuid:2130dab1-4112-491a-8cf9-ef5c72cbb9a6/datastream/TN/view)
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Enhanced reversibility of the magnetoelastic transition in (Mn,Fe)2(P,Si) alloys via minimizing the transition-induced elastic strain energy
![Effect of Co and Ni doping on the structure, magnetic and magnetocaloric properties of Fe-rich (Mn,Fe)<sub>2</sub>(P,Si) compounds](/islandora/object/uuid:3145fdfe-e356-476e-8120-52871e4a8925/datastream/TN/view)
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Effect of Co and Ni doping on the structure, magnetic and magnetocaloric properties of Fe-rich (Mn,Fe)2(P,Si) compounds
![The second-order magnetic phase transition and magnetocaloric effect in all-d-metal NiCoMnTi-based Heusler alloys](/islandora/object/uuid:311fbf95-9d5c-4076-adb7-83b78d833cd0/datastream/TN/view)
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The second-order magnetic phase transition and magnetocaloric effect in all-d-metal NiCoMnTi-based Heusler alloys
![Reduced Hysteresis and Enhanced Giant Magnetocaloric Effect in B-Doped all- d -Metal Ni - Co - Mn - Ti -Based Heusler Materials](/islandora/object/uuid:4c93ce41-9bee-4636-b965-9c7405cb151e/datastream/TN/view)
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Reduced Hysteresis and Enhanced Giant Magnetocaloric Effect in B-Doped all- d -Metal Ni - Co - Mn - Ti -Based Heusler Materials
![Nonlinear influence of excess Mn on the magnetoelastic transition in (Mn,Cr)<sub>2</sub>Sb](/islandora/object/uuid:70aa6d55-9c5e-45b1-93e2-54f0967849d8/datastream/TN/view)
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Nonlinear influence of excess Mn on the magnetoelastic transition in (Mn,Cr)2Sb
![Impact of F and S doping on (Mn,Fe)<sub>2</sub>(P,Si) giant magnetocaloric materials](/islandora/object/uuid:2ebe78a2-f3d4-4dd6-8d5d-e803f92de589/datastream/TN/view)
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Impact of F and S doping on (Mn,Fe)2(P,Si) giant magnetocaloric materials
![The antiferromagnetic to ferrimagnetic phase transition in Mn<sub>2</sub>Sb<sub>1-x</sub>Bi<sub>x</sub> compounds](/islandora/object/uuid:7705fdd7-fee8-4044-b2dc-f1555990cd0b/datastream/TN/view)
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The antiferromagnetic to ferrimagnetic phase transition in Mn2Sb1-xBix compounds
![Switching the magnetostructural coupling in MnCoGe-based magnetocaloric materials](/islandora/object/uuid:9cd1105e-c61e-4aff-bf57-5c037161e89c/datastream/TN/view)
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Switching the magnetostructural coupling in MnCoGe-based magnetocaloric materials
![A universal metric for ferroic energy materials](/islandora/object/uuid:46615581-9da7-4149-ae91-d5c91c59225d/datastream/TN/view)
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A universal metric for ferroic energy materials
![Autonomous filling of grain-boundary cavities during creep loading in Fe-Mo alloys](/islandora/object/uuid:fcaf327a-0997-48b8-98ec-c0291711a2c9/datastream/TN/view)
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Autonomous filling of grain-boundary cavities during creep loading in Fe-Mo alloys
![Autonomous Repair Mechanism of Creep Damage in Fe-Au and Fe-Au-B-N Alloys](/islandora/object/uuid:a9eecdf0-d64a-4985-b920-4ba1768a245f/datastream/TN/view)
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Autonomous Repair Mechanism of Creep Damage in Fe-Au and Fe-Au-B-N Alloys