J
John Banhart
Researcher at Helmholtz-Zentrum Berlin
Publications - 462
Citations - 21750
John Banhart is an academic researcher from Helmholtz-Zentrum Berlin. The author has contributed to research in topics: Metal foam & Neutron imaging. The author has an hindex of 67, co-authored 451 publications receiving 19087 citations. Previous affiliations of John Banhart include Technical University of Berlin & Ludwig Maximilian University of Munich.
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Metal foaming by a powder metallurgy method: Production, properties and applications
TL;DR: In this paper, a method for fabricating metal foams based on the powder metallurgy process is presented, which allows for the production of complex-shaped foam parts, metal foam sandwich panels and foam filled hollow profiles.
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Aluminum Foams: On the Road to Real Applications
TL;DR: A number of methods for making metal foams have been proposed as mentioned in this paper, such as mixing metal powders with a blowing agent, compacting the mix, and then foaming the compacted mix by melting.
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Three-dimensional study of compressed gas diffusion layers using synchrotron X-ray imaging
Christian Tötzke,Christian Tötzke,Gerd Gaiselmann,Markus Osenberg,Jens Bohner,Tobias Arlt,Henning Markötter,André Hilger,F. Wieder,F. Wieder,Andreas Kupsch,Bernd R. Müller,Manfred P. Hentschel,John Banhart,John Banhart,Volker Schmidt,Werner Lehnert,Werner Lehnert,Ingo Manke +18 more
TL;DR: In this article, a flat compression punch was employed to study the fiber geometry at different degrees of compression, which had a direct impact on the transport conditions for gas and fluid flow.
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Morphological Evolution of Electrochemically Plated/Stripped Lithium Microstructures Investigated by Synchrotron X-ray Phase Contrast Tomography.
Fu Sun,Lukas Zielke,Henning Markötter,André Hilger,Dong Zhou,Riko Moroni,Roland Zengerle,Simon Thiele,John Banhart,Ingo Manke +9 more
TL;DR: In this article, a 3D characterization of electrochemically stripped Li electrodes with regard to electrochemical plated LmSs is presented, and the origin of the porous lithium interface growing into Li electrodes is clarified.
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Nanocomposites and an extremely hard nanocrystalline intermetallic of Al–Fe alloys prepared by mechanical alloying
TL;DR: In this paper, a 20-hour mechanical alloying of Al100−xFex, for x = 2.5, 5, 10, 15 and 20 1, alloys was carried out for 20h followed by cold consolidation.