航空制造技术
航空製造技術
항공제조기술
AERONAUTICAL MANUFACTURING TECHNOLOGY
2015年
10期
54-56
,共3页
促进工艺%气相沉积%附着力%聚对二甲苯
促進工藝%氣相沉積%附著力%聚對二甲苯
촉진공예%기상침적%부착력%취대이갑분
Promoting technology%Vapor deposi-tion%Adhesion%Parylene
对聚对二甲苯ParyleneC真空气相沉积促进工艺进行了全面研究。通过附着力测试,确定了促进剂和促进工艺。并对ParyleneC涂层的三防性、耐热性、耐介质性进行了考核。结果表明:在最佳促进参数条件下,附着力达到1级,各项性能指标均满足军用印制电路组件三防技术要求。
對聚對二甲苯ParyleneC真空氣相沉積促進工藝進行瞭全麵研究。通過附著力測試,確定瞭促進劑和促進工藝。併對ParyleneC塗層的三防性、耐熱性、耐介質性進行瞭攷覈。結果錶明:在最佳促進參數條件下,附著力達到1級,各項性能指標均滿足軍用印製電路組件三防技術要求。
대취대이갑분ParyleneC진공기상침적촉진공예진행료전면연구。통과부착력측시,학정료촉진제화촉진공예。병대ParyleneC도층적삼방성、내열성、내개질성진행료고핵。결과표명:재최가촉진삼수조건하,부착력체도1급,각항성능지표균만족군용인제전로조건삼방기술요구。
A comprehensive study of the vacuum vapor deposition promoting technology on the paryleneC is conducted. The accelerant and promoting technology are determined by the adhesion test. The as-sessment on resistance to salt spray, heat and chemistry of the paryleneC is made. The result indicates that under the optimal promoting technology parameters, when the adhesion strength reaches level 1, all performance in-dicators match the three-protection technology require-ments of the military printed circuit module .
