中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2015年
5期
1264-1269
,共6页
叶楠敏%程继贵%陈闻超%李剑峰
葉楠敏%程繼貴%陳聞超%李劍峰
협남민%정계귀%진문초%리검봉
纳米铜粉%凝胶浇注法%导电胶%电阻率%连接强度
納米銅粉%凝膠澆註法%導電膠%電阻率%連接彊度
납미동분%응효요주법%도전효%전조솔%련접강도
nano-sized copper powder%gel-casting method%conductive adhesive%resistivity%bonding strength
以硝酸铜、石墨为原料,采用新颖的凝胶浇注法制备纳米铜粉,并利用硅烷偶联剂KH550对制备的纳米铜粉进行表面抗氧化处理;然后以纳米铜粉为导电填料、以双酚A型环氧树脂(E51)为载体,加入适量的固化剂和稀释剂、除泡剂、促进剂等制备纳米铜粉导电胶。采用X射线衍射(XRD)和透射电镜(TEM)等对制备铜粉的物相、粒度和形貌等进行表征;对预处理前后的纳米铜粉进行热重与差热(TG?DSC)分析;并研究纳米铜粉添加量对所制备导电胶电阻率和连接强度等性能的影响。结果表明:采用凝胶浇注法可制备高纯度、分散性良好、平均粒度约为60 nm的类球形铜粉;经硅烷偶联剂处理后,纳米铜粉的抗氧化性能明显提高;纳米铜粉添加量对所得导电胶的体积电阻率和连接强度有较大影响,纳米铜粉添加量为60%(质量分数)的导电胶的体积电阻率为1.7×10?3Ω·cm,连接强度为11.4 MPa。
以硝痠銅、石墨為原料,採用新穎的凝膠澆註法製備納米銅粉,併利用硅烷偶聯劑KH550對製備的納米銅粉進行錶麵抗氧化處理;然後以納米銅粉為導電填料、以雙酚A型環氧樹脂(E51)為載體,加入適量的固化劑和稀釋劑、除泡劑、促進劑等製備納米銅粉導電膠。採用X射線衍射(XRD)和透射電鏡(TEM)等對製備銅粉的物相、粒度和形貌等進行錶徵;對預處理前後的納米銅粉進行熱重與差熱(TG?DSC)分析;併研究納米銅粉添加量對所製備導電膠電阻率和連接彊度等性能的影響。結果錶明:採用凝膠澆註法可製備高純度、分散性良好、平均粒度約為60 nm的類毬形銅粉;經硅烷偶聯劑處理後,納米銅粉的抗氧化性能明顯提高;納米銅粉添加量對所得導電膠的體積電阻率和連接彊度有較大影響,納米銅粉添加量為60%(質量分數)的導電膠的體積電阻率為1.7×10?3Ω·cm,連接彊度為11.4 MPa。
이초산동、석묵위원료,채용신영적응효요주법제비납미동분,병이용규완우련제KH550대제비적납미동분진행표면항양화처리;연후이납미동분위도전전료、이쌍분A형배양수지(E51)위재체,가입괄량적고화제화희석제、제포제、촉진제등제비납미동분도전효。채용X사선연사(XRD)화투사전경(TEM)등대제비동분적물상、립도화형모등진행표정;대예처리전후적납미동분진행열중여차열(TG?DSC)분석;병연구납미동분첨가량대소제비도전효전조솔화련접강도등성능적영향。결과표명:채용응효요주법가제비고순도、분산성량호、평균립도약위60 nm적류구형동분;경규완우련제처리후,납미동분적항양화성능명현제고;납미동분첨가량대소득도전효적체적전조솔화련접강도유교대영향,납미동분첨가량위60%(질량분수)적도전효적체적전조솔위1.7×10?3Ω·cm,련접강도위11.4 MPa。
Nano-sized copper powders were prepared by gel-casting method using copper nitrate and graphite as the main raw materials. Silane coupling agent KH550 was used in the surface antioxidant treatment of copper powders. Using the as-prepared nano-sized copper powders as conductive fillers and the bisphenol A epoxy resins (E51) as matrix, nano-copper filled conductive adhesives were prepared by adding appropriate amount of curing agent, thinner, defrother, promoter and other additive agents. X-ray diffraction (XRD) and transmission electron microscopy (TEM) were used to characterize the phase composition, particle size and morphology of the copper powders. The copper powders before and after anti-oxidation treatment was conducted by TG?DSC analysis. The influence of the nano-sized copper powder content on the resistivity and bonding strength of the adhesives was investigated. The results show that the copper powders prepared by gel-casting method are of high purity, well dispersibility and a mean particle size of about 60 nm. After being treated by silane coupling agent, the oxidation property of the nano-sized copper powders can be obviously improved. The content of nano-sized copper powders has a great effect on the volume resistivity and bonding strength of the conductive adhesives, the optimum sample with volume resistivity of 1.7×10?3 Ω·cm and bonding strength of 11.4 MPa can be prepared when the filling amount of nano-sized copper powders is 60% (mass fraction).
