2017-Sustainable Industrial Processing Summit
SIPS 2017 Volume 3. Gaune-Escard Intl. Symp. / Molten Salt and Ionic Liquid

Editors:Kongoli F, Fehrmann R, Gadzuric S, Gong W, Seddon KR, Malyshev V, Iwata S
Publisher:Flogen Star OUTREACH
Publication Year:2017
Pages:151 pages
ISBN:978-1-987820-65-2
ISSN:2291-1227 (Metals and Materials Processing in a Clean Environment Series)
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    High Efficiency of Renewable Energy Sources Through SPD Processing Of Bulk Nanostructured Solids

    Michael J. Zehetbauer1; Ernst Bauer2; Roland Groessinger2; Gerhard Krexner1; Maciej Krystian3; Peter Franz Rogl4; Gerda Rogl5; Erhard Schafler1;
    1UNIVERSITY OF VIENNA, FACULTY OF PHYSICS, Wien, Austria; 2VIENNA UNIVERSITY OF TECHNOLOGY, FACULTY OF PHYSICS, Wien, Austria; 3AUSTRIAN INSTITUTE OF TECHNOLOGY, CENTER FOR HEALTH & BIORESOURCES, Wiener Neustadt, Austria; 4, Wien, Austria; 5CHRISTIAN DOPPLER LABORATORY FOR THERMOELECTRICITY, Wien, Austria;
    Type of Paper: General Plenary
    Id Paper: 348
    Topic: 46

    Abstract:

    Over the last two decades the processing method �Severe Plastic Deformation�SPD� has impressively demonstrated that nanostructured materials with superior mechanical properties can be produced �top-down� in bulk shape which cannot be achieved with traditional �bottom-up� methods. Now, the optimization of functional properties has been coming into the focus of the community�s research, not at least since the authors reached outstanding successes such as world-records in the figure-of-merit (ZT) of SPD-thermoelectrics, and in the reproducibility in the hydrogen storage of SPD-processed hydrogen storage materials. Recent investigations by the authors clearly suggest that a high density of SPD- induced lattice defects other than of classical grain boundaries can be equally or even more beneficial with respect to functional properties. For example, in case of thermoelectrics, SPD-induced dislocations and/or particular dislocation arrays seem to be most effective in increasing the ZT value. Also in case of soft magnetic materials, regular dislocation arrays from SPD which form low-angle zero-strain nanocrystal boundaries promise new low-coercivity and high-magnetostriction materials, while in case of hydrogen storage, thermally stable SPD-induced vacancy clusters seem to govern the formation / dissolution of the hydride phase. With the know-how to be obtained from systematic investigations, it should be possible to tailor specific defect structures on the nanoscale for optimum functional materials performances with very promising perspectives to practical application.

    Keywords:

    Absorption; Conductivity; Energy; Hydrogen; Industry; Nanomaterials; Sustainability; Synthesis; Technology;

    Cite this article as:

    Zehetbauer M, Bauer E, Groessinger R, Krexner G, Krystian M, Rogl P, Rogl G, Schafler E. (2017). High Efficiency of Renewable Energy Sources Through SPD Processing Of Bulk Nanostructured Solids. In Kongoli F, Fehrmann R, Gadzuric S, Gong W, Seddon KR, Malyshev V, Iwata S (Eds.), Sustainable Industrial Processing Summit SIPS 2017 Volume 3. Gaune-Escard Intl. Symp. / Molten Salt and Ionic Liquid (pp. 44-45). Montreal, Canada: FLOGEN Star Outreach