粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
Materials Science and Engineering of Powder Metallurgy
2015年
5期
700-704
,共5页
林培豪%王振中%潘顺康%刘烨
林培豪%王振中%潘順康%劉燁
림배호%왕진중%반순강%류엽
MnAl合金%吸波材料%回火处理%电磁参数
MnAl閤金%吸波材料%迴火處理%電磁參數
MnAl합금%흡파재료%회화처리%전자삼수
MnAl alloy%absorbing material%tempering treatment%electromagnetic parameters
采用真空悬浮熔炼和高能球磨工艺制备Al8Mn5合金粉体,使用XRD和网络矢量分析仪研究回火温度对粉体组织结构和微波吸收特性的影响.结果表明:低于或等于400 ℃回火处理的高能球磨Al8Mn5合金粉体主要由Al8Mn5单相组成,600℃回火处理后,粉体主要由Al8Mn5、Al2Mn3和Mn2O3相组成;随回火温度升高,Al8Mn5粉体电磁参数虚部的共振频率、损耗因子的峰值频率和吸收峰频率均向高频方向移动;400 ℃回火粉体具有最强的吸波能力,涂层厚度为2.0 mm时,其反射率最小值达到?37 dB.
採用真空懸浮鎔煉和高能毬磨工藝製備Al8Mn5閤金粉體,使用XRD和網絡矢量分析儀研究迴火溫度對粉體組織結構和微波吸收特性的影響.結果錶明:低于或等于400 ℃迴火處理的高能毬磨Al8Mn5閤金粉體主要由Al8Mn5單相組成,600℃迴火處理後,粉體主要由Al8Mn5、Al2Mn3和Mn2O3相組成;隨迴火溫度升高,Al8Mn5粉體電磁參數虛部的共振頻率、損耗因子的峰值頻率和吸收峰頻率均嚮高頻方嚮移動;400 ℃迴火粉體具有最彊的吸波能力,塗層厚度為2.0 mm時,其反射率最小值達到?37 dB.
채용진공현부용련화고능구마공예제비Al8Mn5합금분체,사용XRD화망락시량분석의연구회화온도대분체조직결구화미파흡수특성적영향.결과표명:저우혹등우400 ℃회화처리적고능구마Al8Mn5합금분체주요유Al8Mn5단상조성,600℃회화처리후,분체주요유Al8Mn5、Al2Mn3화Mn2O3상조성;수회화온도승고,Al8Mn5분체전자삼수허부적공진빈솔、손모인자적봉치빈솔화흡수봉빈솔균향고빈방향이동;400 ℃회화분체구유최강적흡파능력,도층후도위2.0 mm시,기반사솔최소치체도?37 dB.
Al8Mn5 alloy powder was prepared by vacuum levitation melting and high-energy ball milling, and the effect of tempering temperature on microstructure and microwave absorbing properties of powder were investigated by X-ray diffraction (XRD) and network vector analyzer. The results show that: the high-energy ball milling Al8Mn5 alloy powders tempered at less than or equal to 400℃ are mainly composed of Al8Mn5single phase, after tempering treatment at 600℃, powders are mainly composed of Al8Mn5, Al2Mn3 and Mn2O3phases; With increasing tempering temperature, the resonance frequency of the imaginary part of the electromagnetic parameters, the peak frequency of the loss factor and absorption peak frequency of Al8Mn5powder shift to the high frequency direction; Absorbing materials of 400℃ tempering powder has the strongest absorbing ability, when coating thickness is 2.0mm, its minimum reflectance reaches?37 dB.