Akademik Veri Yönetim Sistemi
APS Global Physics Summit 2026, Colorado, Amerika Birleşik Devletleri, 15 - 20 Mart 2026, ss.1-10, (Özet Bildiri)
Magnetic levitation plays a crucial role in various modern engineering applications, including transportation systems, precision positioning devices, and contactless energy transfer technologies. Its ability to achieve frictionless motion and high positional accuracy makes it a promising field for both research and industrial development. We develop and analyze a magnetic levitation system designed to lift a 500 g object using permanent magnets and control coils, operating as electromagnets for stable levitation. Using a simulation based on the finite element method, we perform comprehensive force–position analyses along both the horizontal and vertical axes to evaluate magnetic interactions and the system's response. From the force–displacement curves, we will determine the coefficients for the mathematical model of the levitation point and derive the control parameters required for system stability. Based on these parameters, real-time tests will be conducted on the developed system to verify its operational stability and performance. The experimentally obtained prototype will serve as a demonstration platform for future applications in contactless material handling and precision motion systems.