Preparation and properties of iron based soft magnetic composites coated with mixed resin
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摘要: 随着移动通讯、智能制造、汽车电子与电子新能源等新兴领域的快速发展,对磁粉芯的损耗及其他方面的性能提出了更高的要求。将环氧树脂与有机硅树脂进行共混改性,并对磷化处理后的羰基铁粉进行有机绝缘包覆,再对包覆后的磁粉进行压制成型及固化处理制备成铁基磁粉芯(SMCs)。研究了不同成分共混树脂对铁基磁粉芯组织结构与电磁学性能的影响。结果表明,共混树脂通过形成有效的包覆层结构,减少粉末颗粒在压制过程所引入的应变,同时隔离颗粒间的接触以切断涡流,使所制备的磁粉芯密度达到6.82 g/cm3、电阻率高达1.1×106 Ω·cm,并提高了品质因数,降低了高频损耗。当共混树脂由33.3wt%环氧树脂与66.7wt%有机硅树脂组成时,铁基磁粉芯的综合性能最佳,在200 kHz下的功率损耗仅为1182.7 kW/m3。通过选用合适成分的共混树脂包覆剂,进一步优化铁基磁粉芯的磁性能,在中高频领域具有广阔的应用前景。Abstract: With the rapid development of mobile communication, intelligent manufacturing, automotive electronics, electronic new energy and other emerging fields, reducing the magnetic loss and improving other properties of SMCs are required. The silicone resin mixed with epoxy resin was used to coat the phosphatized carbonyl iron powder (CIP). And the coated powders were fabricated into iron based soft magnetic composites (SMCs) through compression and curing. The effects of different mixed resins on the microstructure and electromagnetic properties of iron-based SMCs were studied. The results show that the mixed resin has been formed a reasonable coating layer on the surface of powders, which leads to reduce the strain of the powders introduced during compression and isolate the powders to cut off the eddy current. As a result, the density of SMCs can reach 6.82 g/cm3, the resistivity is as high as 1.1×106 Ω·cm. Meanwhile, its quality factor is improved and the magnetic loss at high frequency is reduced. When the mixed resin is composed of 33.3wt% epoxy resin and 66.7wt% silicone resin, the SMCs are provided with optimal comprehensive performance with 1182.7 kW/m3 loss only at 200 kHz. The magnetic properties of iron-based SMCs are further optimized through selecting the blending resin coating agent with suitable composition, which has a broad application prospect in the field of medium and high frequency.
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Key words:
- soft magnetic composites /
- mixed resin /
- insulation coating /
- magnetic loss /
- quality factor
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图 1 不同成分配比树脂包覆后磁粉的SEM图像: (a) SMCs;(b) 16.7wt%EP/SMCs;(c) 33.3wt%EP/SMCs;(d) 50.0wt%EP/SMCs;(e) 83.3wt%EP/SMCs;(f) 100.0wt%EP/SMCs
Figure 1. SEM images of the magnetic powders coated with different mixed resins: (a) SMCs; (b) 16.7wt%EP/SMCs; (c) 33.3wt%EP/SMCs; (d) 50.0wt%EP/SMCs; (e) 83.3wt%EP/SMCs; (f) 100.0wt%EP/SMCs
图 2 不同成分配比树脂包覆磁粉芯的断面SEM图像:(a) SMCs;(b) 16.7wt%EP/SMCs;(c) 33.3wt%EP/SMCs;(d) 50.0wt%EP/SMCs;(e) 83.3wt%EP/SMCs;(f) 100.0wt%EP/SMCs
Figure 2. Fracture SEM images of the SMCs based on the powders coated with different mixed resins: (a) SMCs; (b) 16.7wt%EP/SMCs; (c) 33.3wt%EP/SMCs; (d) 50.0wt%EP/SMCs; (e) 83.3wt%EP/SMCs; (f) 100.0wt%EP/SMCs
图 3 不同成分配比树脂对磁粉芯密度的影响
Figure 3. Effects of the mixed resin composition on the SMCs density
图 4 不同成分配比树脂对磁粉芯电阻率的影响
Figure 4. Effects of the mixed resin composition on the SMCs resistivity
图 5 不同成分配比树脂包覆磁粉芯的复数磁导率µ:(a) 实部μ'-环氧树脂占比曲线图;(b) 虚部μ''-频率曲线图
Figure 5. Permeability µ of the cores coated with different mixed resins: (a) μ'-epoxy resin proportion curve; (b) μ''-frequency curves
图 6 不同成分配比树脂包覆磁粉芯的损耗因子
Figure 6. Loss factor of the cores coated with different mixed resins
图 7 不同成分配比树脂包覆磁粉芯的品质因数
Figure 7. Quality factor of the cores coated with different mixed resins
图 8 不同成分配比树脂包覆磁粉芯的功率损耗随频率变化曲线(a)和随树脂成分变化曲线(b)
Figure 8. Core loss curves of the cores under different frequencies (a) and with different resin compositions (b)
表 1 共混树脂成分配比
Table 1. Ingredients list of the mixed resin
Samples number Epoxy resin∶Silicone
resin (mass ratio)Epoxy percentage/
wt%SMCs 0∶1 0.0 16.7wt%EP/SMCs 1∶5 16.7 33.3wt%EP/SMCs 1∶2 33.3 50.0wt%EP/SMCs 1∶1 50.0 66.7wt%EP/SMCs 2∶1 66.7 83.3wt%EP/SMCs 5∶1 83.3 100.0wt%EP/SMCs 1∶0 100.0 Notes: SMCs—Soft magnetic composites; EP—Epoxy resin. 
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