Zobrazeno 1 - 10
of 136
pro vyhledávání: '"Giselher Herzer"'
Autor:
Kodai Takano, Ryu‐ichi Hashimoto, Pawel Kozikowski, Markus Kuhnt, Masato Ohnuma, Giselher Herzer, Christian Polak
Publikováno v:
Physical Review Materials. 4
Stress annealing (SA)-induced magnetic anisotropy is known in iron, nickel, and cobalt-based ferromagnetic metallic glass ribbons and it has already been used in commercial processes. Uniaxial elastic strain is introduced by SA and is quenched into t
Autor:
Mie Marsilius, Xiandong Xu, Markus Kuhnt, Giselher Herzer, Christian Polak, Pawel Kozikowski, Kazuhiro Hono, Tadakatsu Ohkubo, Konda Gokuldoss Pradeep, Marshal Amalraj, Masato Ohnuma, Thomas Strache
Publikováno v:
Journal of Alloys and Compounds. 766:686-693
Magnetic properties of amorphous and nanocrystalline Fe85.2−xCoxSi0.5B9.5P4Cu0.8 (x = 0, 4, 10, 15, 20, 25, 35, 40, 50 and 57 at%) alloys have been investigated and their detailed structural parameters have been quantitatively investigated by X-ray
Autor:
A. Conde, Mie Marsilius, M. Sánchez-Pérez, L.M. Moreno-Ramírez, Victorino Franco, Giselher Herzer
Publikováno v:
Digital.CSIC. Repositorio Institucional del CSIC
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Traditionally the study of the magnetocaloric effect (MCE) in amorphous and nanocrystalline alloys has been focused on Fe and rare earth based compositions. However, they present problems that hinder their application such as the high price of rare e
Autor:
B. Eftekhari Yekta, Mie Marsilius, Viktoria Budinsky, Ali Beitollahi, Giselher Herzer, Shahriar Jafari, Kazuhiro Hono, Tadakatsu Ohkubo
Publikováno v:
Journal of Alloys and Compounds. 674:136-144
We have investigated the microstructure and the magnetic properties of as-cast and flash annealed (4 s at 420 °C–560 °C) Fe84.3Si4B8P3Cu0.7 melt-spun ribbons. The scanning electron microscopy-electron backscattered diffraction (SEM-EBSD) analyses
Autor:
Mie Marsilius, B. Eftekhari Yekta, S. Mollazadeh, Kazuhiro Hono, Giselher Herzer, Tadakatsu Ohkubo, Shahriar Jafari, Viktoria Budinsky, Ali Beitollahi
Publikováno v:
Journal of Magnetism and Magnetic Materials. 401:1123-1129
The effect of phosphorous on the microstructure and magnetic properties of as-spun and flash annealed (389–535 °C for 7 s) Fe85Cu1Si2B8P4 melt spun ribbons were investigated by three-dimensional atom probe (3DAP) and high resolution transmission e
Publikováno v:
Scripta Materialia. 130:46-48
Amorphous ribbons of composition Fe 85.2-x Co x Si 0.5 B 9.5 P 4 Cu 0.8 (x = 0 at% and 4 at%) have been flash annealed for 10 s at temperatures between 350 °C and 540 °C. Above about 400 °C a nanocrystalline state of bcc Fe(Co) is formed with a cr
Autor:
Giselher Herzer, Viktoria Budinsky, Ludwig Schultz, Rudolf Schäfer, Ivan Soldatov, E. Lopatina, Mie Marsilius
Publikováno v:
Acta Materialia. 96:10-17
The magnetic microstructure and hysteresis properties of Fe84.3Cu0.7Si4B8P3 soft magnetic ribbons have been investigated by Kerr-microscopy, Kerr-magnetometry and inductive hysteresis measurements. Crystalline surface layers were already present afte
Autor:
Raghavan Gopalan, B. EftekhariYekta, Tadakatsu Ohkubo, Giselher Herzer, Shahriar Jafari, Keiu Kanada, Kazuhiro Hono, Ali Beitollahi
Publikováno v:
Journal of Magnetism and Magnetic Materials. :38-43
In the work presented here, the soft magnetic properties of Fe 1− x P x ( x =0.36, 0.7, 1.1 at%) rolled sheet alloys were investigated. In this respect, the as-rolled sheets were subjected to a two steps annealing processes; the first one between 8
Publikováno v:
Acta Materialia. 68:295-309
Rapid annealing (4–10 s) induced primary crystallization of soft magnetic Fe–Si nanocrystals in a Fe73.5Si15.5Cu1Nb3B7 amorphous alloy has been systematically studied by atom probe tomography in comparison with conventional annealing (30–60 min
Publikováno v:
Journal of the Korean Physical Society. 62:1465-1468
Nanocrystallisation of Fe75Cu1Nb3Si8B13 under tensile stress results in a creep induced anisotropy which, at room temperature, is characterised by a magnetic easy axis along the stress axis. However, this magnetic easy ribbon axis becomes a magnetic