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Fast-current-heating devices to study in situ phase formation in metallic glasses by using high-energy synchrotron radiation.
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- Author(s): Orava, Jiri; Kosiba, Konrad; Han, Xiaoliang; Soldatov, Ivan; Gutowski, Olof; Ivashko, Oleh; Dippel, Ann-Christin; Zimmermann, Martin v.; Rothkirch, André; Bednarcik, Jozef; Kühn, Uta; Siegel, Hartmut; Ziller, Steffen; Horst, Alexander; Peukert, Karsten; Voigtländer, Ralf; Lindackers, Dirk; Kaban, Ivan
- Source:
Review of Scientific Instruments; Jul2020, Vol. 91 Issue 7, p1-7, 7p, 1 Color Photograph, 2 Diagrams, 1 Graph
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- Abstract:
Details of fast-resistive-heating setups, controlled heating ranging from ∼101 K s−1 to ∼103 K s−1, to study in situ phase transformations (on heating and on cooling) in metallic glasses by high-energy synchrotron x-ray diffraction are discussed. Both setups were designed and custom built at the Leibniz Institute for Solid State and Materials Research Dresden (IFW Dresden) and have been implemented at the P02.1 Powder Diffraction and Total Scattering Beamline and the P21.1 Swedish Materials Science Beamline at PETRA III storage ring, DESY, Hamburg. The devices are interchangeable at both beamlines. Joule heating is triggered automatically and is timed with the incident beam and detector. The crystallization process can be controlled via a feedback circuit by monitoring the change in the time-dependent resistivity and temperature of glasses. Different ambient atmospheres, such as vacuum and inert gases (He and Ar), can be used to control oxidation and cooling. The main focus of these devices is on understanding the crystallization mechanism and kinetics in metallic glasses, which are brittle and for which fast heating gives defined glass–crystal composites with enhanced plasticity. As an example, phase-transformation sequence(s) in a prototyped Cu–Zr-based metallic glass is described on heating, and a crystalline phase beneficial to the plasticity is identified. [ABSTRACT FROM AUTHOR]
- Abstract:
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