电镀与涂饰
電鍍與塗飾
전도여도식
ELECTROPLATING & FINISHING
2014年
5期
189-192
,共4页
碳纤维布%化学镀镍%聚苯胺包覆%雷达波反射率%弓形法
碳纖維佈%化學鍍鎳%聚苯胺包覆%雷達波反射率%弓形法
탄섬유포%화학도얼%취분알포복%뢰체파반사솔%궁형법
carbon fiber fabric%nickel plating%polyaniline coating%radar reflectivity%arch method
采用化学镀镍和聚苯胺包覆分别对碳纤维布进行表面改性。表征了不同方法改性前后碳纤维布的表观形貌和导电性,并采用弓形法对碳纤维布在X波段的雷达反射率进行测试。结果表明,未改性、镀镍和聚苯胺包覆碳纤维布的电阻分别为24.2、22.6和60.6?。频率较低时,镀镍碳纤维布的雷达反射率低于未改性碳纤维布;在8~12 GHz全频段,前者的平均反射率比后者高22.35%。聚苯胺包覆碳纤维布在8~12 GHz全频段内的雷达反射率均小于改性前的碳纤维布,其平均反射率降低了104.71%。
採用化學鍍鎳和聚苯胺包覆分彆對碳纖維佈進行錶麵改性。錶徵瞭不同方法改性前後碳纖維佈的錶觀形貌和導電性,併採用弓形法對碳纖維佈在X波段的雷達反射率進行測試。結果錶明,未改性、鍍鎳和聚苯胺包覆碳纖維佈的電阻分彆為24.2、22.6和60.6?。頻率較低時,鍍鎳碳纖維佈的雷達反射率低于未改性碳纖維佈;在8~12 GHz全頻段,前者的平均反射率比後者高22.35%。聚苯胺包覆碳纖維佈在8~12 GHz全頻段內的雷達反射率均小于改性前的碳纖維佈,其平均反射率降低瞭104.71%。
채용화학도얼화취분알포복분별대탄섬유포진행표면개성。표정료불동방법개성전후탄섬유포적표관형모화도전성,병채용궁형법대탄섬유포재X파단적뢰체반사솔진행측시。결과표명,미개성、도얼화취분알포복탄섬유포적전조분별위24.2、22.6화60.6?。빈솔교저시,도얼탄섬유포적뢰체반사솔저우미개성탄섬유포;재8~12 GHz전빈단,전자적평균반사솔비후자고22.35%。취분알포복탄섬유포재8~12 GHz전빈단내적뢰체반사솔균소우개성전적탄섬유포,기평균반사솔강저료104.71%。
The surface of carbon fiber fabric was modified by electroless nickel plating and polyaniline coating, respectively. The apparent morphology and conductivity of carbon fiber fabric before and after modification by different methods were characterized, and the X-band radar reflectivity on carbon fiber fabric was tested by arc method. The results showed that the resistances of the unmodified, nickel-plated, and polyaniline-coated carbon fiber fabric are 24.2, 22.6 and 60.6 ?, respectively. The nickel-plated carbon fiber fabric has lower radar reflectivity than the unmodified one at low frequencies, but an average reflectivity 22.35% higher at the whole band of 8-12 GHz. The polyaniline-coated carbon fiber fabric has lower reflectivity than the unmodified one at the whole band of 8-12 GHz with an average reflectivity decreased by 104.71%.
