材料导报
材料導報
재료도보
MATERIALS REVIEW
2009年
20期
23-25
,共3页
胡正西%揭晓华%黄伟溪%卢国辉
鬍正西%揭曉華%黃偉溪%盧國輝
호정서%게효화%황위계%로국휘
铅锡电镀液%碳纳米管%聚丙烯酸%球磨
鉛錫電鍍液%碳納米管%聚丙烯痠%毬磨
연석전도액%탄납미관%취병희산%구마
Pb-Sn electroplating solution%carbon nanotubes%polyacrylic acid (PA)%ball milling
对碳纳米管进行不同时间的球磨,以聚丙烯酸为分散剂、铅锡镀液为分散介质,制备了用于复合镀的碳纳米管铅锡悬浮液.采用分光光度法测定了悬浮液的沉降比,采用摩擦试验法测定了镀层的摩擦因数.研究了分散剂含量、球磨时间对碳纳米管铅锡悬浮液稳定性的影响,并对其分散机理进行了初步探讨.结果表明,聚丙烯酸在铅锡镀液中能有效地分散碳纳米管.当聚丙烯酸的体积分数为0.3%、球磨机转速为300r/min、球磨时间为6h时,悬浮液的沉降比最小,复合镀层的摩擦因数也最小.聚丙烯酸对碳纳米管的稳定分散作用主要是通过电空间稳定机制来实现的.
對碳納米管進行不同時間的毬磨,以聚丙烯痠為分散劑、鉛錫鍍液為分散介質,製備瞭用于複閤鍍的碳納米管鉛錫懸浮液.採用分光光度法測定瞭懸浮液的沉降比,採用摩抆試驗法測定瞭鍍層的摩抆因數.研究瞭分散劑含量、毬磨時間對碳納米管鉛錫懸浮液穩定性的影響,併對其分散機理進行瞭初步探討.結果錶明,聚丙烯痠在鉛錫鍍液中能有效地分散碳納米管.噹聚丙烯痠的體積分數為0.3%、毬磨機轉速為300r/min、毬磨時間為6h時,懸浮液的沉降比最小,複閤鍍層的摩抆因數也最小.聚丙烯痠對碳納米管的穩定分散作用主要是通過電空間穩定機製來實現的.
대탄납미관진행불동시간적구마,이취병희산위분산제、연석도액위분산개질,제비료용우복합도적탄납미관연석현부액.채용분광광도법측정료현부액적침강비,채용마찰시험법측정료도층적마찰인수.연구료분산제함량、구마시간대탄납미관연석현부액은정성적영향,병대기분산궤리진행료초보탐토.결과표명,취병희산재연석도액중능유효지분산탄납미관.당취병희산적체적분수위0.3%、구마궤전속위300r/min、구마시간위6h시,현부액적침강비최소,복합도층적마찰인수야최소.취병희산대탄납미관적은정분산작용주요시통과전공간은정궤제래실현적.
In order to get homogeneously dispersed carbon nanotubes suspension for composite plating, carbon nanotubes are ball milled for different times and polycyclic acid (PA) is used as a dispersant Sedimentation ratio is calculated by measuring the absorbance of suspensions and friction coefficient of the composite coatings is measured by friction test The effects of dispersant content and ball milling times on the dispersive stability of suspension are studied. In addition, the dispersion mechanism is preliminarily discussed. The results show that PA can effectively disperse carbon nanotubes in Pb-Sn electroplating solution. The volume fraction of PA is 0. 3%, milling time is 6h and the milling speed is 300r/min, sedimentation ratio is the smallest The composite coatings have the smallest friction coefficient too. Besides, the dispersion of carbon nanotubes in Pb-Sn electroplating solution with PA mainly results from electrostatics stabilization.