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3D FEM simulation of a T-Shaped electromagnetic actuator was performed, and the results are discussed in this article

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Magnetic actuators are based on electromagnetic field to convert electrical energy into mechanical energy. Depending on the type of generated motion; linear or rotational movement, electromagnetic actuators are classified in two categories: rotary and linear actuator.

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Renewable energy, known also as green or clean energy, is derived from natural processes that are regenerative over short periods of time and cannot be depleted.

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Linear electromagnetic actuators with solenoid type, are widely used in industrial applications. They are part of various electromagnetic devices based on different controlling mechanisms;

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Wireless energy transfer or wireless power is the transmission of electrical energy from a power source to an electrical load without interconnecting wires.

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Busbar, composed of a single or a group of conductors, is used as an electrical junction between incoming and outgoing electrical currents.

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Non-destructive testing techniques are commonly used in a various industrial and research fields, in order to evaluate the properties of a wide variety of materials without causing damages. Some of the frequently used methods, are the Electromagnetic-field techniques.

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The development of high-performance electrical installation requires flexible, efficient and intelligent electrical power distribution. The busbar systems are the essential components of power stations and they define the main connection nodes for power delivery.

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Micro-electro-mechanical systems (MEMS) are a highly growing field. They enable the investigation of micro-scale devices in various applications ..

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In injection molding tools, the common employment of Electromagnetic surface induction heating instead of conventional volume heating ..

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Electro-Thermo-Mechanical Modeling of a V-beam Actuator

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EMS Structural simulation of Magnetic micro-actuator design for tactile display

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The magnetizer known also by the magnetic flux concentrator, is used for magnetic control by intensifying the magnetic flux in certain areas of a workpiece.

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Magnetic actuators use electromagnetic fields to convert electrical energy into mechanical energy. Depending on the motion whether it is translation or rotation, actuators are classified on two main categories which are linear and rotary actuators.

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The vast use of electromagnetic induction heating in molds is thanks to its advantages of fast heating and high efficiency. Combined with cooling process, induction heating is employed to achieve a dynamic mold temperature control.

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Electrostatic actuation, commonly used in MEMS, is based on the electrostatic fields and the forces they generate on the structures. The deformation of electrodes, caused by the electrostatic forces, is the main concern in electromechanical actuators such as RF micro-switches, comb-drives and Pressure sensors.

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Micro-electro-mechanical systems (MEMS) make it possible to reduce the size of complex engineering devices to a micrometer scale, for various applications: micro positioning, micro fixturing, micromanipulation etc

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MEMS based micro-grippers reveals excellent flexibility and adaptability in miniaturization devices in various engineering applications, such as micromanipulations, micro assemblies, etc...

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Wire bonding method is one of the most important interconnection techniques in electronics packaging. It is used to make electrical contact between integrated circuits or other semiconductor devices and the circuit board during device fabrication.

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The multi physics capabilities of EMS to solve an electromagnetic and thermal problem in time domain using the EMS transient module.

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