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        Effect of a Multi-stage Processing Method on the Composite Properties of a Stainless-Steel Surface

        Jing Li,Jianan Cao,Lida Pan,Feng Du,Weibing Wang,Chengyu Xu 대한금속·재료학회 2022 METALS AND MATERIALS International Vol.28 No.4

        In this study, a multi-stage sandblasting and acid-etching processing method is used to prepare a 304 stainless-steel surfacewith a loose structure that has the composite properties of superhydrophobicity, low adhesion, anti-icing ability, self-cleaningbehavior and corrosion resistance. The surface morphology and chemical constituents of this structure are characterizedby scanning electron microscopy and X-ray diffraction, respectively. The results show that the micro-scale roughness anddifferent degrees of porosity in this structure play a key role in its superhydrophobicity.The anti-icing properties and corrosionresistance are characterized by contact-angle measurements and electrochemical workstation analyses, respectively. The results show that superhydrophobicity has positive effects on surface self-cleaning, anti-icing properties and corrosionresistance of 304 stainless-steel.

      • Prospect and status of iron-based rare-earth-free permanent magnetic materials

        Li, Da,Li, Yong,Pan, Desheng,Zhang, Zhidong,Choi, Chul-Jin Elsevier 2019 Journal of magnetism and magnetic materials Vol.469 No.-

        <P><B>Abstract</B></P> <P>With the advent of high performance permanent magnets based on the rare-earth (RE) elements such as Sm-Co, Nd-Fe-B alloys in 1980s, the application areas have been extended from the electronics to hybrid electric vehicles and wind turbines etc. However, the advantages of these RE based magnets may be overshadowed by the supply constraints, high prices and environmental issues. Much attention has been paid on non-RE element based permanent magnetic materials as next generation of permanent magnetic materials, due to low cost, large coercivity and high Curie temperatures (working temperatures). A variety of methods are available to manufacture RE-free permanent magnetic materials in bulk, nanostructure, nanocomposite and thin films. The proper scale-up methods to produce magnetic nanostructures with high energy efficiency have still been a significant challenge, which are very important to the development of novel RE-free permanent magnetic materials to meet tomorrow’s energy needs. In this review paper, we emphasize to introduce the prospect and status of developments of iron-based RE-free hard-magnetic nanomaterials involving magnetic thin films, nanocomposites and nanostructures.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Several fundamental physics effects of magnetic theory are introduced for high permanent magnetic properties. </LI> <LI> The research progress of Fe-based rare-earth-free hard-magnetic materials is reviewed. </LI> <LI> The magnetic properties and preparation method of Fe-based hard-magnetic nanomaterials are summarized. </LI> </UL> </P>

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