Thermal-magnetic performance analysis for smart fluid dampers

IF 1 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Antonino Caracciolo, Samuele Ollio, Alessio Pizzi, Leonardo Romeo, Antonio Enrico Serranò, Giuseppe Vasily Tringali, Antonino Greco, Mario Versaci
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Abstract

Abstract Over the years, the Italian Government has taken significant strides in promoting road safety awareness among the students in high schools to create an awareness of prevention and a consciousness of road safety in the student population. In this context, an agreement was signed between the DICEAM Department of the “Mediterranea” University of Reggio Calabria (Italy) and the “Euclide” Higher Education Institute Bova Marina (Italy) to combine road safety with research science in the Science, Technology, Engineering, and Mathematics (STEM) area. With the primary aim of “knowing in order to act”, the students focused on the multi-physics design of magnetorheological fluid dampers as high-performance devices (simple to design and requiring reduced maintenance) for vehicle suspensions, especially class B vehicles. By combining road safety considerations with multi-physics scientific disciplines, the project seeks to emphasize the importance of prevention and knowledge-based action. The study explores the use of magnetorheological fluid dampers, powered by electric current and magnetic induction distribution with thermal loads, to provide appropriate yield stress for developing damping action with repercussions on the quality of road safety. The paper delves into the basic principles of FEM (Finite Element Method) techniques for analyzing an MR damper from both magnetostatic (the main cause generating the damping effect) and thermal perspectives (thermal effects are strongly influenced by environmental conditions). The analysis of an asymmetrical device, where the damping action relies on an MR fluid strip, reveals the significant influence of magnetic and thermal stresses on the magnetization of individual particles and the overall viscosity of the MR fluid.
智能流体阻尼器的热磁性能分析
多年来,意大利政府在提高高中学生的道路安全意识方面取得了重大进展,在学生群体中建立了预防意识和道路安全意识。在此背景下,意大利雷焦卡拉布里亚“地中海”大学DICEAM系与意大利博瓦码头“欧几里得”高等教育学院签署了一项协议,将道路安全与科学、技术、工程和数学(STEM)领域的研究科学结合起来。以“知而行”为主要目标,学生们将重点放在磁流变流体阻尼器的多物理场设计上,作为车辆悬架的高性能装置(设计简单,需要减少维护),特别是B类车辆。通过将道路安全考虑与多学科科学学科相结合,该项目旨在强调预防和基于知识的行动的重要性。该研究探索了磁流变流体阻尼器的使用,该阻尼器由电流和带热负载的磁感应分布驱动,为开发对道路安全质量产生影响的阻尼作用提供适当的屈服应力。本文从静磁(产生阻尼效应的主要原因)和热(热效应受环境条件的强烈影响)两方面探讨了分析磁流变阻尼器的有限元方法的基本原理。对一个不对称装置的分析表明,磁应力和热应力对单个颗粒的磁化强度和磁流变液的总体粘度有显著影响,其中阻尼作用依赖于磁流变液条。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Electrical Engineering-elektrotechnicky Casopis
Journal of Electrical Engineering-elektrotechnicky Casopis 工程技术-工程:电子与电气
CiteScore
1.70
自引率
12.50%
发文量
40
审稿时长
6-12 weeks
期刊介绍: The joint publication of the Slovak University of Technology, Faculty of Electrical Engineering and Information Technology, and of the Slovak Academy of Sciences, Institute of Electrical Engineering, is a wide-scope journal published bimonthly and comprising. -Automation and Control- Computer Engineering- Electronics and Microelectronics- Electro-physics and Electromagnetism- Material Science- Measurement and Metrology- Power Engineering and Energy Conversion- Signal Processing and Telecommunications
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