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Yongjian Li
Researcher at Hebei University of Technology
Publications - 160
Citations - 1386
Yongjian Li is an academic researcher from Hebei University of Technology. The author has contributed to research in topics: Magnetic flux & Electrical steel. The author has an hindex of 18, co-authored 130 publications receiving 945 citations. Previous affiliations of Yongjian Li include University of Technology, Sydney.
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Bio-Inspired Magnetostrictive Tactile Sensor for Surface Material Recognition
TL;DR: The experimental results indicate that the proposed tactile sensor is effective and highly accurate for surface material classification and has the potential of being miniaturized and integrated into the finger of a robotic hand to realize surface material recognition in real time.
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A Contactless Self-Regulating HTS Flux Pump
TL;DR: In this paper, a contactless self-regulating high temperature superconducting (HTS) flux pump was proposed to charge the HTS magnet with all the conventional constituents outside the cryostat, and the operating frequency could be very low to evade inducing large eddy current as well as losses on the Cryostat wall.
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Research of Three-Dimensional Magnetic Reluctivity Tensor Based on Measurement of Magnetic Properties
TL;DR: In this paper, a method of studying the three-dimensional reluctivity tensor by measuring 3-D vector magnetic properties of the soft magnetic composite (SMC) material is presented, where the magnetic flux density B and magnetic field strength H loci under alternating and rotating magnetizations are measured by using an improved 3-dimensional tester.
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A Dynamic Magnetostriction Model of Grain-Oriented Sheet Steels Based on Becker–Döring Crystal Magnetization Model and Jiles–Atherton Theory of Magnetic Hysteresis
TL;DR: In this article, a new magnetostriction model of GO sheet steels was proposed by combining the Becker-Doring crystal model and the dynamic Jiles-Atherton hysteresis model.
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Modeling dynamic magnetostriction of amorphous core materials based on Jiles–Atherton theory for finite element simulations
TL;DR: In this article, a comprehensive model of magnetostriction in amorphous material based on the interdependence between magnetostrictions and magnetization was proposed, which combines the isotropic magnetic effect and Jiles-Atherton energy balance theory.