Session Details
[P1]Processing, Characterization & Thin Films
Mon. Jul 28, 2025 4:30 PM - 6:00 PM JST
Mon. Jul 28, 2025 7:30 AM - 9:00 AM UTC
Mon. Jul 28, 2025 7:30 AM - 9:00 AM UTC
Yellow zone, Conference rooms 101 and 102(1F)
[P1-50]Optimization of Processing Parameters for High-Performance Anisotropic Bonded Magnets
*Ikenna C. Nlebedim1, Xubo Liu1, Parans Paranthaman2 (1. Division of Critical Materials, Ames National Laboratory (United States of America), 2. Chemical Sciences Division, Oak Ridge National Laboratory (United States of America))
[P1-51]Demagnetization Processes in Nd-Fe-B sintered and Ferrite Magnets derived from magnetic measurement and soft X-ray magnetic circular dichroism microscopy
*Yutaka Matsuura1 (1. Research Institute for Applied Sciences (Japan))
[P1-52]Anisotropy field measurement in hard magnets: evaluating current methodologies
*Alex Aubert1, Konstantin Skokov1, Oliver Gutfleisch1 (1. Functional Materials, TU Darmstadt (Germany))
[P1-53]Angular Dependence of Coercivity and Flux Loss under Tilted Field in Nd-Fe-B Sintered Magnet
*Hitoshi Yamamoto1, Hirotoshi Fukunaga2 (1. Neoji-consul (Japan), 2. Nagasaki University (Japan))
[P1-54]Pulsed Field Magnetometers - validating data generated by Self-Demagnetisation Field Function (SDFF) correction to create closed loop results from open loop measurements
*Robin Cornelius1, Jian He2, Jack Wade1, Stuart Harwin1, James Mckenzie1 (1. Hirst Magnetic Instruments Ltd (UK), 2. National Institute of Metrology (China))
[P1-55]Measuring initial curves and minor hysteresis loops for rare earth magnets using the Pulsed Field Magnetometer (PFM) system
*Robin Cornelius1, Jack Wade1, Stuart Harwin1, James Mckenzie1 (1. Hirst Magnetic Instruments Ltd (UK))
[P1-56]Spectroscopic insights into the electronic structure of non-critical rare earth containing permanent magnets
*Benedikt Eggert1, Alex Aubert2, Philipp Klaßen1, Janosch Tasto1, Nathan Yutronkie3, Fabrice Wilhelm3, Andrei Rogalev3, Konstantin Skokov2, Heiko Wende1, Oliver Gutfleisch2, Katharina Ollefs1 (1. University of Duisburg-Essen (Germany), 2. Technical University of Darmstadt (Germany), 3. European Synchrotron Radiation Facility (France))
[P1-57]Three-dimensional magnetic domain propagation of a Nd-Fe-B hot-deformed magnet
*Tomomi Suwa1, Motohiro Suzuki2, Tadakatsu Ohkubo3, Iriyama Takahiko4, Hiroshi Miyawaki4, Kaiki Takemura2, Yusuke Akiyama2, Takuya Taniguchi1, Satoshi Okamoto1,3 (1. Tohoku University (Japan), 2. Kwansei Gakuin University (Japan), 3. National Institute for Materials Science (Japan), 4. Daido Steel Company, Limited (Japan))
[P1-58]A New Perspective on Assessing the Magnetic Texture in Nd-Fe-B Magnets: The influence of coercivity
Luis Torres Quispe1, *Wagner Costa Macedo1, Marcelo Augusto Rosa1, Leonardo Antunes1, Apuniano Baldárrago-Alcántara1, Paulo Wendhausen1 (1. Federal University of Santa Catarina (Brazil))
[P1-59]Temperature field variations during directional solidification of rare-earth large-size Tb-Dy-Fe magnetostrictive materials and their effect on growth orientation
*jiang ping xin1, Jiheng Li1, Xiaoqian Bao1, Xuexu Gao1 (1. USTB (China))
[P1-60]Bioinspired Design, Fabrication, and Wing Morphing of 3D-Printed Magnetic Butterflies
Muhammad Bilal Khan1, Kilan Schäfer1, Florian Hofmann1, Matthias Lutzi1, Eduardo Sergio Oliveros-Mata2, Oleksandr Pylypovskyi2, Denys Makarov2, *Oliver Gutfleisch1 (1. Functional Materials, TU Darmstadt (Germany), 2. Institute of Ion Beam Physics and Materials Research Helmholtz-Zentrum Dresden-Rossendorf e.V. (Germany))
[P1-61]Phase composition and magnetic properties of Nd(Pr)2Fe14B and (Sm,Zr)Fe11Ti magnets produced by selective laser melting
Sergey Andreev1, *Viktoria Maltseva1, Dmitriy Neznakhin1, Arkadiy Shalaginov1, Andrey Urzhumtsev1, Alexey Volegov1 (1. Ural Federal University (Russia))
[P1-62]Grain alignment by single track printing using anisotropic sintered Nd-Fe-B magnet as a substrate
Peishu Song1, Zhenyuan Liu1, Yan Li2, Dan Han3, *Lanting Zhang1 (1. Shanghai Jiao Tong University (China), 2. Inner Mongolia University of Science and Technology (China), 3. Inner Mongolia Research Institute of Shanghai Jiao Tong University (China))
[P1-63]Microstructural Investigation of Nd-Fe-B Magnets Fabricated by Laser Powder Bed Fusion
*Hojeong Kim1, Taesuk Jang2, Du-Rim Eo3, Wooyoung Lee1 (1. Yonsei university (North Korea), 2. Sunmoon University (North Korea), 3. KITECH (North Korea))
[P1-64]From Scrap to Bonded Magnet: Exploring Nanocrystalline Recycled Powders in Additive Manufacturing
*Marcelo Augusto Rosa1, Gabriel Maia2, Apuniano Baldarrago1, Maximiliano Martins2, Paulo Wendhausen1 (1. UFSC (Brazil), 2. CDTN (Brazil))
[P1-65]Enhancing the Printability of Nd-Fe-B Feedstocks for Laser Powder Bed Fusion
Marcelo Augusto Rosa1, Apuniano Baldarrago1, Arthur Mascheroni2, José Maria Mascheroni2, *Paulo Wendhausen1 (1. UFSC (Brazil), 2. Alkimat (Brazil))
[P1-66]Preparation of micromagnets via LIFT technique
*Masaki Nakano1, Gakuto Tahara1, Takuki Amiya1, Akihiro Yamashita1, Takeshi Yanai1, Masaru Itakura2, Kunihiro Koike3, Hirotoshi Fukunaga1 (1. Nagasaki university (Japan), 2. Kyushu university (Japan), 3. Yamagata university (Japan))
[P1-67]Sputtered high-coercivety CeCo thin film on glass substrate
Cheng-Yan Lee2, Sea-Fue Wang2, Huang-Wei Chang3, *An-Cheng Aidan Sun1 (1. Yuan Ze University (Taiwan), 2. National Taipei University of Technology (Taiwan), 3. National Chung Cheng University (Taiwan))
[P1-68]Growth of SmFe12 thin films using MBE
*Uyanga Enkhnaran1, Jargalan Narmandakh1, Sangaa Deleg1, Odkhuu Dorj2, Sunglae Cho3 (1. Institute of Physics and Technology of Mongolian Academy of Sciences (Mongolia), 2. Icnheon National University (Korea), 3. University of Ulsan (Korea))
[P1-69]Development of data handling tools for high-throughput experiments
*Pierre Le Berre1, William Rigaut1, Wilfried Hortschitz2, Santa Pile2, Harald Oezelt2, Samuel J. R. Holt3,4, Swapneel A. Pathak3,4, Hans Fangohr3,4,5, Thomas Schrefl2, Thibaut Devillers1, Nora M. Dempsey1 (1. Univ. Grenoble Alpes, CNRS, Grenoble INP, Institut Néel, 38000 Grenoble (France), 2. Department for Integrated Sensor Systems, University for Continuing Education Krems, Wr. Neustadt (Austria), 3. Max Planck Institute for the Structure and Dynamics of Matter, Luruper Chaussee 149, 22761 Hamburg (Germany), 4. Center for Free-Electron Laser Science, Luruper Chaussee 149, 22761 Hamburg (Germany), 5. Faculty of Engineering and Physical Sciences, University of Southampton, Southampton SO17 1BJ (UK))
[P1-70]Towards the high-throughput microstructural characterisation of compositionally graded NdFeB-based films
*Lukas Fink1, William Rigaut1, Pierre Le-Berre1, Heisam Moustafa2, Qais Ali2, Leoni Breth2, Thomas Schrefl2, Harald Oezelt2, Thibaut Devillers1, Nora M. Dempsey1 (1. 1Université Grenoble Alpes, CNRS, Grenoble INP, Institut Néel, 38000 Grenoble (France), 2. Department for Integrated Sensor Systems, University for Continuing Education Krems, 2700 Wr. Neustadt (Austria))
[P1-71]Characterization of rare earth garnet [Eu3Fe5O12/Tb3Fe5O12]/Gd3Ga5O12 (111) ([EuIG/TbIG]/GGG (111)) thin films
*Ko-Wei Lin1, Guan-Hua Lu1, Tai-Yi Chiu1, Chi Wah Leung2 (1. National Chung Hsing University (Taiwan), 2. The Hong Kong Polytechnic University (China))
[P1-72]Spin-Hall Transport in Rare-Earth Iron Garnet/Heavy Metal Heterostructures: Impact of Interface and Garnet Bulk Composition Modulation
Peigen Li1, *Chi Wah Leung1 (1. Department of Applied Physics, The Hong Kong Polytechnic University (Hong Kong))
[P1-73]Effect of Ir addition on the crystal structure and magnetic properties for Mn-Ga thin films
*Yuto Yamazaki1, Masaaki Doi1, Toshiyuki Shima1 (1. Tohoku Gakuin University (Japan))
[P1-74]Magnetocaloric effect of textured polycrystalline RNi5 alloys
*Iurii Koshkidko1, Jacek Ćwik1 (1. Institute of Low Temperature and Structure Research, PAS, Okólna 2, Wrocław, 50-422 (Poland))
[P1-75]The influence of phosphorization treatment on the high-temperature oxidation resistance of Nd-Fe-B magnetic powder
* Jingwu Zheng1, Xinqi Zhang1, Dongsheng Shi1, Wei Cai1, Liang Qiao1, Yao Ying1, Shenglei Che 1 (1. Research Center of Magnetic and Electronic Materials, College of Materials Science and Engineering, Zhejiang University of Technology, Hangzhou 310014, China (China))