功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2015年
15期
15109-15113
,共5页
低温可膨胀石墨%原位膨胀%PMMA%电导率
低溫可膨脹石墨%原位膨脹%PMMA%電導率
저온가팽창석묵%원위팽창%PMMA%전도솔
low-temperature expandable graphite%in-situ expansion%PMMA%electrical conductivity
使用低温可膨胀石墨,通过“原位膨胀-机械剥离”的方法制备了 PMMA/EG 复合材料,研究了可膨胀石墨含量对其电导率的影响。电导率、SEM、动态流变等测试表明膨胀后的石墨片层在树脂基体中分散良好;从10~20 phr 开始,石墨鳞片相互接触形成网络结构显著地提高电导率,最高达12个数量级。采用原位膨胀法可以制备逾渗阈值较小的导电复合材料,填充少量低温可膨胀石墨就可以大幅度提高 PMMA电导率。
使用低溫可膨脹石墨,通過“原位膨脹-機械剝離”的方法製備瞭 PMMA/EG 複閤材料,研究瞭可膨脹石墨含量對其電導率的影響。電導率、SEM、動態流變等測試錶明膨脹後的石墨片層在樹脂基體中分散良好;從10~20 phr 開始,石墨鱗片相互接觸形成網絡結構顯著地提高電導率,最高達12箇數量級。採用原位膨脹法可以製備逾滲閾值較小的導電複閤材料,填充少量低溫可膨脹石墨就可以大幅度提高 PMMA電導率。
사용저온가팽창석묵,통과“원위팽창-궤계박리”적방법제비료 PMMA/EG 복합재료,연구료가팽창석묵함량대기전도솔적영향。전도솔、SEM、동태류변등측시표명팽창후적석묵편층재수지기체중분산량호;종10~20 phr 개시,석묵린편상호접촉형성망락결구현저지제고전도솔,최고체12개수량급。채용원위팽창법가이제비유삼역치교소적도전복합재료,전충소량저온가팽창석묵취가이대폭도제고 PMMA전도솔。
PMMA/EG composite was prepared through the method of “in-situ expansion-mechanical exfoliation”and the influence of low-temperature expandable graphite (LTEG)content on its electrical property was investi-gated in this paper.Electrical conductivity,SEM and dynamic rheology analysis indicated that the layers of ex-panded graphite were well dispersed in resin matrix;when the composite containing 10-20 phr EG,graphite flakes were contacted mutually and formed the conductive network gradually,which increased electrical conduc-tivity obviously (up to a maximum of 10 1 2 ).The method of filling PMMA with LTEG can obtain low threshold value of seepage composite and improve electrical conductivity sufficiently at a low content of LTEG.