粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
POWDER METALLURGY MATERIALS SCIENCE AND ENGINEERING
2015年
2期
319-324
,共6页
李发长%冯晓鹏%李一%柳学全%李金普%李楠
李髮長%馮曉鵬%李一%柳學全%李金普%李楠
리발장%풍효붕%리일%류학전%리금보%리남
铁基软磁复合材料%热处理工艺%软磁性能
鐵基軟磁複閤材料%熱處理工藝%軟磁性能
철기연자복합재료%열처리공예%연자성능
Fe-based soft magnetic composites%heat treatment process%soft magnetic properties
以磷酸为磷化剂对雾化铁粉进行磷化处理,然后在800 MPa压力下压制成环形生坯,分别在H2、N2和空气气氛下进行热处理,制成软磁复合材料磁芯,研究热处理气氛、热处理温度与时间对磁芯电磁性能的影响。结果表明:铁粉经磷化处理后,表面包覆完整均匀的磷酸盐绝缘层;与H2和N2气氛相比,磁芯压坯在空气气氛下热处理后拥有更高的磁导率和较小的磁损耗;空气气氛下500℃处理30 min是较优的热处理工艺,磁芯最大磁导率达到350,在频率为1 kHz和饱和磁感1T条件下的磁损耗仅为145 W/kg,进一步延长热处理时间或提高热处理温度,磁导率增加不明显,但电阻率显著降低,导致磁损耗显著增加,软磁性能恶化。
以燐痠為燐化劑對霧化鐵粉進行燐化處理,然後在800 MPa壓力下壓製成環形生坯,分彆在H2、N2和空氣氣氛下進行熱處理,製成軟磁複閤材料磁芯,研究熱處理氣氛、熱處理溫度與時間對磁芯電磁性能的影響。結果錶明:鐵粉經燐化處理後,錶麵包覆完整均勻的燐痠鹽絕緣層;與H2和N2氣氛相比,磁芯壓坯在空氣氣氛下熱處理後擁有更高的磁導率和較小的磁損耗;空氣氣氛下500℃處理30 min是較優的熱處理工藝,磁芯最大磁導率達到350,在頻率為1 kHz和飽和磁感1T條件下的磁損耗僅為145 W/kg,進一步延長熱處理時間或提高熱處理溫度,磁導率增加不明顯,但電阻率顯著降低,導緻磁損耗顯著增加,軟磁性能噁化。
이린산위린화제대무화철분진행린화처리,연후재800 MPa압력하압제성배형생배,분별재H2、N2화공기기분하진행열처리,제성연자복합재료자심,연구열처리기분、열처리온도여시간대자심전자성능적영향。결과표명:철분경린화처리후,표면포복완정균균적린산염절연층;여H2화N2기분상비,자심압배재공기기분하열처리후옹유경고적자도솔화교소적자손모;공기기분하500℃처리30 min시교우적열처리공예,자심최대자도솔체도350,재빈솔위1 kHz화포화자감1T조건하적자손모부위145 W/kg,진일보연장열처리시간혹제고열처리온도,자도솔증가불명현,단전조솔현저강저,도치자손모현저증가,연자성능악화。
Fe-based soft magnetic composites (SMC) were fabricated using the phosphating atomized iron powders pressed at 800 MPa and then heat-treated in the atmosphere of H2, N2 and air, respectively. The effects of heat treatment atmosphere, temperature and time on the magnetic and electrical properties of the composites were studied. The results show that the iron powders surface is covered by the iron phosphate coating uniformly during the process of phosphating. High magnetic permeability and low magnetic loss are obtained after the heat treatment at the atmosphere of air. Moreover, the sample treated in air at 500℃ for 30min exhibits an excellent comprehensive performance, with the maximum magnetic permeability of 350, and the minimum magnetic loss of 145 W/kg when the frequency is 1 kHz and the saturation flux density is 1T. However, increasing time or temperature of the heat treatment, there is no obvious increases of the magnetic permeability, but electrical resistivity decreases sharply, which results in magnetic loss increasing and magnetic properties worsening.
