This project aims to develop and optimize soft magnetic materials for use in solenoids for automotive components such as: electric injectors, electric valves, electric pumps... etc. The work seeks to produce soft magnetic materials with higher magnetic permeability to produce higher magnetic forces in solenoids.ududPowder metallurgy was used to produce the magnetic solenoid parts with a wide array o f possible material combinations. Different mixtures o f Fe-Si, Fe-Co and Fe-Si-Co were developed. A cold-isostatic compacting technique was used with a pressure of 180 MPa. Then the samples were sintered twice at a temperature o f 1315 °C for 45 min after compacting, and after the final machining.ududDensity, compression, hardness and microstructure were investigated for all samples before and after the second sintering. The results showed that the mechanical properties and the microstructure were improved after the second sintering. The magnetic density and intensity (B-H) was determined for each material. A sample o f each new material was sent to an American Lab.ududFinite element simulations were carried out using commercial software (ANSYS) to simulate the magnetic field o f a common rail electro-injector solenoid. The maximum magnetic force was determined for each developed material. Different models were built-up by varying the magnetic material properties and the working parameters such as the coil turn - current for a fixed gap between the armature and the back iron.
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机译:该项目旨在开发和优化用于汽车零部件电磁阀的软磁材料,例如:电动喷油器,电动阀,电动泵等。该工作旨在生产具有更高磁导率的软磁材料以产生更大的磁力 ud ud粉末冶金用于生产具有多种可能材料组合的电磁螺线管零件。开发了Fe-Si,Fe-Co和Fe-Si-Co的不同混合物。使用冷等静压压制技术,压力为180 MPa。然后,在压实后和最终加工之后,将样品在1315°C的温度下烧结两次,持续45分钟,然后进行最终加工。 ud ud在第二次烧结前后,对所有样品的密度,压缩性,硬度和显微组织进行了研究。结果表明,第二次烧结后力学性能和显微组织得到改善。测定每种材料的磁密度和强度(B-H)。将每种新材料的样品发送到美国实验室。 ud ud使用商用软件(ANSYS)进行有限元模拟,以模拟共轨电喷油电磁阀的磁场。确定每种已开发材料的最大磁力。通过改变磁性材料的特性和工作参数(例如线圈匝数-电枢和后铁之间的固定间隙的电流)来建立不同的模型。
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