EARLY HEARING DETECTION AND INTERVENTION VIRTUAL CONFERENCE
MARCH 2-5, 2021
(Virtually the same conference, without elevators, airplane tickets, or hotel room keys)
2/27/2018 | 8:55 AM - 9:45 AM | Concrete-Based Magnetic Composites: Designs for Enhanced Permeability and Mechanical Strength | Summit A
Concrete-Based Magnetic Composites: Designs for Enhanced Permeability and Mechanical Strength
Concrete is the most widely used engineered construction material in the world. In the US, it provides the annual revenue of more than $100 billion, indirectly employing more than half of million professionals with the expected growth of 8% by 2020. This large economic footprint is at the same time large potential for secondary or multifunctional use of concrete. In this presentation, we will address the modeling of large-particle, concrete/mortar-based Structural Magnetic Composites (SMCs), with the emphasis on impact of morphology, orientation, and segregation of magnetic particles. By developing a novel multidisciplinary framework for SMC modeling, we provide the tool for enhancing the effective magnetic permeability, maintaining strength and durability of the composite, and reducing the amount of expensive magnetic ferrite materials used in production. This will reduce the overall cost of production of in-motion charging pads and may lead to more rapid adoption as the prevalence of EVs increases.
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Presenters/Authors
Zeljko Pantic
(), Utah State University, zeljko.pantic@usu.edu;
Zeljko Pantic received his B.Sc. and M.Sc. degrees from the School of Electrical Engineering, Belgrade University, Serbia. In 2009, he joined the NSF-funded Future Renewable Electric Energy Delivery and Management (FREEDM) Research Center at North Carolina State University (NCSU, Raleigh, NC) as a research assistant. After graduation in 2013, he joined the Electrical and Computer Engineering Department at Utah State University as an Assistant Professor. His primary areas of interest are systems for wireless inductive power transfer, control of power electronic converters and electromagnetic energy conversion with specific applications to transportation electrification and dynamic charging systems, etc.
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