宇航材料工艺
宇航材料工藝
우항재료공예
AEROSPACE MATERIALS & TECHNOLOGY
2010年
1期
42-44
,共3页
吴友朋%刘祥萱%周友杰%莫斌%吴春
吳友朋%劉祥萱%週友傑%莫斌%吳春
오우붕%류상훤%주우걸%막빈%오춘
吸波材料%颗粒尺寸%趋肤效应%单磁畴%量子尺寸效应
吸波材料%顆粒呎吋%趨膚效應%單磁疇%量子呎吋效應
흡파재료%과립척촌%추부효응%단자주%양자척촌효응
Absorbing material%Particle size%Skin depth%Single magnetic domain%Quantum size effect
对最佳的吸收剂颗粒粒度进行数值计算和分析.从趋肤效应和单个磁畴颗粒大小两个角度,以纯铁粉为例对最佳的粒度做了分析,结果表明,对于2~18 GHz的雷达波,铁粉颗粒在16 nm~1μm为好.还分析了利用纳米颗粒的量子尺寸效应来吸收电磁波时颗粒的尺寸范围,计算结果表明,此时颗粒尺寸至少应小于22 nm.
對最佳的吸收劑顆粒粒度進行數值計算和分析.從趨膚效應和單箇磁疇顆粒大小兩箇角度,以純鐵粉為例對最佳的粒度做瞭分析,結果錶明,對于2~18 GHz的雷達波,鐵粉顆粒在16 nm~1μm為好.還分析瞭利用納米顆粒的量子呎吋效應來吸收電磁波時顆粒的呎吋範圍,計算結果錶明,此時顆粒呎吋至少應小于22 nm.
대최가적흡수제과립립도진행수치계산화분석.종추부효응화단개자주과립대소량개각도,이순철분위례대최가적립도주료분석,결과표명,대우2~18 GHz적뢰체파,철분과립재16 nm~1μm위호.환분석료이용납미과립적양자척촌효응래흡수전자파시과립적척촌범위,계산결과표명,차시과립척촌지소응소우22 nm.
The best size of metal microwave absorbing particles was investigated. From the view point of skin depth and the critical size of single magnetic domain particle, the best size of metal absorbent is analized and numeri-cally calculated. It is found out that for pure Fe while the size is within the range from 16 nm to 1 μm,its properties are satisfactory at 2 to 18 GHz. In order to utilize the quantum size effect of nano-particles to absorb microwave,the calculation results indicate that the size is less than 22 nm at least.