Design, produce and test systems that convert electrical energy into mechanical energy or mechanical energy into electrical energy in matters that require propulsion or require any equipment. It can meet the needs of many different project-based work disciplines.
Conduct research on the needed improvement, to determine the needs and to design in line with these needs, considering the current technical developments, to carry out optimizations and to finalize the design that will reach the requirements in the most optimum way.
Analytical calculations are made using the books and articles read, and then improvements are made with electromagnetic analysis using the finite element method (FEM). When using FEM in the electromagnetic analysis of an electric motor, the correct selection of materials in the electric motor and the sensitivity of the created electric motor mesh structure are very important for the accuracy of the results.Analyzes of the electric motor are run at specified points such as no-load operation and load operation, and the characteristics of the motor are examined in detail, and 3D analyzes are also performed at this stage. Analyzes such as acquisition of inductance data, separation analysis of reluctance and main torque, optimization of active materials, optimization of the number of slots and slot mouth optimization, air barriers around the magnet in the rotor and optimizations regarding the location and size of the magnets, thermal analysis, efficiency map, rotor structural strength analysis. It is carried out within the scope of electromagnetic design. The optimizations and analyzes performed may increase or decrease depending on the project needs.Since multiple disciplines need to work together, simulation and mechanical strength and thermal analyzes are performed to see the functioning of the system after the improvements are completed.
Prototype production, laboratory tests and tests on the project are the joint
responsibilities during the progress of the project.
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