电镀与涂饰
電鍍與塗飾
전도여도식
ELECTROPLATING & FINISHING
2009年
12期
5-8
,共4页
占稳%胡立新%沈瑞敏%程骄%欧阳贵%陈雪梅
佔穩%鬍立新%瀋瑞敏%程驕%歐暘貴%陳雪梅
점은%호립신%침서민%정교%구양귀%진설매
镀铜%酒石酸盐%添加剂%循环伏安法%表面形貌
鍍銅%酒石痠鹽%添加劑%循環伏安法%錶麵形貌
도동%주석산염%첨가제%순배복안법%표면형모
copper plating%tartrate%additive%cyclic voltammetry%surface morphology
研究了一种无氰碱性镀铜工艺.运用循环伏安法和扫描电子显微镜研究了配方中三乙醇胺(4 mL/L)、硝酸铵(1.5g/L)、亚胺类物质hg01(1 mL/L)和吡啶类物质hg02(0.5 g/L)等4种添加剂的作用.结果表明:三乙醇胺能改善低电流密度处镀层质量;硝酸铵与铜离子结合能在较宽电流密度范围内参与阴极还原反应,有效抑制析氢反应;hg01优先吸附在阴极高电流密度处与铜离子产生强配合作用,能提高镀液的分散能力,有利于产生细微晶粒;hg02能在电极表面吸附,增大了铜沉积过程的极化作用,有效改善了中电流密度区镀层的整平性和脆性.X射线衍射研究表明,该铜镀层表现出(111)晶面的择优取向.该工艺具有良好的镀液及镀层性能,镀层厚度中等,适合用于铁基片上打底.
研究瞭一種無氰堿性鍍銅工藝.運用循環伏安法和掃描電子顯微鏡研究瞭配方中三乙醇胺(4 mL/L)、硝痠銨(1.5g/L)、亞胺類物質hg01(1 mL/L)和吡啶類物質hg02(0.5 g/L)等4種添加劑的作用.結果錶明:三乙醇胺能改善低電流密度處鍍層質量;硝痠銨與銅離子結閤能在較寬電流密度範圍內參與陰極還原反應,有效抑製析氫反應;hg01優先吸附在陰極高電流密度處與銅離子產生彊配閤作用,能提高鍍液的分散能力,有利于產生細微晶粒;hg02能在電極錶麵吸附,增大瞭銅沉積過程的極化作用,有效改善瞭中電流密度區鍍層的整平性和脆性.X射線衍射研究錶明,該銅鍍層錶現齣(111)晶麵的擇優取嚮.該工藝具有良好的鍍液及鍍層性能,鍍層厚度中等,適閤用于鐵基片上打底.
연구료일충무청감성도동공예.운용순배복안법화소묘전자현미경연구료배방중삼을순알(4 mL/L)、초산안(1.5g/L)、아알류물질hg01(1 mL/L)화필정류물질hg02(0.5 g/L)등4충첨가제적작용.결과표명:삼을순알능개선저전류밀도처도층질량;초산안여동리자결합능재교관전류밀도범위내삼여음겁환원반응,유효억제석경반응;hg01우선흡부재음겁고전류밀도처여동리자산생강배합작용,능제고도액적분산능력,유리우산생세미정립;hg02능재전겁표면흡부,증대료동침적과정적겁화작용,유효개선료중전류밀도구도층적정평성화취성.X사선연사연구표명,해동도층표현출(111)정면적택우취향.해공예구유량호적도액급도층성능,도층후도중등,괄합용우철기편상타저.
A non-cyanide alkaline copper electroplating technology was studied.The role of 4 additives including triethanolamine(4 mL/L),ammonium nitrate(1.5 g/L),imine compound hg01(1mL/L)and pyridine compound hg02 (0.5 g/L)was studied by cyclic voltammetry and scanning electron microscopy.The results showed that triethanolamine improves the coating quality in low current density area.Ammonium nitrate takes part in cathodic reduction over a wide range of current density and effectively restrains hydrogen evolution.Hg01 is preferentially adsorbed on cathode surface at high current density,where a strong complexation with copper ion occurs leading to an enhancement of the throwing power of bath and to the formation of fine and uniform grains.Hg02 is adsorbed on electrode surface,raises the polarization of copper deposition and improves leveling ability and brittleness in middle current density area.X-ray diffraction patterns showed that copper deposit has preferential orientation with(111).The process has advantages of good properties of bath and deposit and produces moderate thickness of deposit.It is suitable for forming a sublayer on iron substrate.