E
Eduard Arzt
Researcher at Saarland University
Publications - 435
Citations - 24492
Eduard Arzt is an academic researcher from Saarland University. The author has contributed to research in topics: Dislocation & Thin film. The author has an hindex of 76, co-authored 425 publications receiving 22528 citations. Previous affiliations of Eduard Arzt include University of Nebraska–Lincoln & Leibniz Institute for Neurobiology.
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X-ray diffraction as a tool to study the mechanical behaviour of thin films
TL;DR: In this paper, the authors present results of in-situ X-ray strain measurements on Al and Cu thin films, which were mechanically strained by thermal cycling or a dedicated micro-tensile tester.
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Temperature-dependent size effects on the strength of Ta and W micropillars
Oscar Torrents Abad,Oscar Torrents Abad,Jeffrey M. Wheeler,Johann Michler,Andreas S. Schneider,Eduard Arzt,Eduard Arzt +6 more
TL;DR: In this paper, the size effect of focused ion beam-milled body-centered cubic (BCC) micropillars was systematically studied by performing high-temperature compression tests on Ta and W single crystal pillars at temperatures up to 400°C.
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Adhesion Characteristics of PDMS Surfaces During Repeated Pull‐Off Force Measurements
TL;DR: In this paper, the effect of repeated pull-off force measurements on the adhesion behavior of polydimethylsiloxanes (PDMS) tested with a borosilicate glass probe was investigated.
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Structure and properties of the glandular surface in the digestive zone of the pitcher in the carnivorous plant Nepenthes ventrata and its role in insect trapping and retention
Elena V. Gorb,Victoria Kastner,Andrei Peressadko,Eduard Arzt,Eduard Arzt,Laurence Gaume,Nick P. Rowe,Stanislav N. Gorb +7 more
TL;DR: Gland secretion may decrease attachment ability in insects with smooth adhesive pads but not influence attachment of insects with hairy attachment systems, and high free surface energy of the plant substrate may promote adhesion.
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Microstructure and creep properties of dispersion-strengthened aluminum alloys
TL;DR: In this article, the mechanical properties of dispersion-strengthened aluminum alloys, with various dispersoid types, volume fractions, and grain structures, were investigated in conjunction with systematic microstructural examinations.