功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
22期
3275-3278
,共4页
贾艳%苏晓磊%王俊勃%徐洁%贺辛亥%付翀%刘松涛
賈豔%囌曉磊%王俊勃%徐潔%賀辛亥%付翀%劉鬆濤
가염%소효뢰%왕준발%서길%하신해%부충%류송도
SiC%燃烧合成%吸波性能
SiC%燃燒閤成%吸波性能
SiC%연소합성%흡파성능
silicon carbide%combustion synthesis%absorption property
采用整体预热燃烧合成法,以硅粉和炭黑为原料,铁粉为掺杂剂,聚四氟乙烯为助燃剂,在0.1MPa的氮气气氛中分别在不同预热温度下合成Fe掺杂β-SiC粉体。通过X射线衍射、扫描电子显微镜和电子能谱对合成粉体进行了微观表征。同时在8.2~12.4GHz频率范围内进行了介电性能测试,并对其吸波性能进行了计算。结果表明,随着预热温度的升高,合成的β-SiC粉体的晶格参数随之减小,其介电性能随之降低;当预热温度为1300℃,匹配厚度为2mm时,合成粉体的吸波性能在X波段达到最佳。
採用整體預熱燃燒閤成法,以硅粉和炭黑為原料,鐵粉為摻雜劑,聚四氟乙烯為助燃劑,在0.1MPa的氮氣氣氛中分彆在不同預熱溫度下閤成Fe摻雜β-SiC粉體。通過X射線衍射、掃描電子顯微鏡和電子能譜對閤成粉體進行瞭微觀錶徵。同時在8.2~12.4GHz頻率範圍內進行瞭介電性能測試,併對其吸波性能進行瞭計算。結果錶明,隨著預熱溫度的升高,閤成的β-SiC粉體的晶格參數隨之減小,其介電性能隨之降低;噹預熱溫度為1300℃,匹配厚度為2mm時,閤成粉體的吸波性能在X波段達到最佳。
채용정체예열연소합성법,이규분화탄흑위원료,철분위참잡제,취사불을희위조연제,재0.1MPa적담기기분중분별재불동예열온도하합성Fe참잡β-SiC분체。통과X사선연사、소묘전자현미경화전자능보대합성분체진행료미관표정。동시재8.2~12.4GHz빈솔범위내진행료개전성능측시,병대기흡파성능진행료계산。결과표명,수착예열온도적승고,합성적β-SiC분체적정격삼수수지감소,기개전성능수지강저;당예열온도위1300℃,필배후도위2mm시,합성분체적흡파성능재X파단체도최가。
Fe-dopedβ-SiC powders have been synthesized by overall preheating combustion synthesis under dif-ferent preheating temperature,using silicon powders and carbon black as the raw materials,iron powder as dopant and PTFE as the chemical activator,respectively.The microstructure of prepared powders has been characterized by XRD,SEM and EDS.The electric permittivity of prepared powder has been determined and the microwave absorption property has been calculated in the frequency range from 8.2GHz to 12.4GHz.Re-sults show that the lattice constants and dielectric property of the preparedβ-SiC decrease with increasing pre-heating temperature.The SiC powder synthesized under preheating temperature of 1300℃ with 2mm matching thickness presents the best microwave absorption property in the X-band.
