工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2014年
5期
7-10
,共4页
焦剑%汪雷%徐焱%苗杰%吕盼盼
焦劍%汪雷%徐焱%苗傑%呂盼盼
초검%왕뢰%서염%묘걸%려반반
氰酸酯%笼型倍半硅氧烷%力学性能%介电常数
氰痠酯%籠型倍半硅氧烷%力學性能%介電常數
청산지%롱형배반규양완%역학성능%개전상수
cyanate%polyhedral oligomeric silsesquioxane%mechanical property%dielectric constant
采用八环氧基笼型倍半硅氧烷(G-POSS)与双酚A型氰酸酯树脂(CE)共混制备了高性能CE/G-POSS杂化材料,考察了不同G-POSS含量时杂化材料的力学性能、热性能、介电性能和耐湿性。结果表明,G-POSS改性的CE断面存在大量波纹状和鱼鳞片状结构,增加了材料的韧性,当G-POSS含量为7份时,杂化材料的冲击强度达到最大值23.8 kJ/m2,比纯CE提高了158%;当G-POSS含量为4份时,杂化材料的介电常数由3.27下降到3.05,达到最小;随着G-POSS含量的增加,杂化材料的耐热性和耐湿性均有所下降。
採用八環氧基籠型倍半硅氧烷(G-POSS)與雙酚A型氰痠酯樹脂(CE)共混製備瞭高性能CE/G-POSS雜化材料,攷察瞭不同G-POSS含量時雜化材料的力學性能、熱性能、介電性能和耐濕性。結果錶明,G-POSS改性的CE斷麵存在大量波紋狀和魚鱗片狀結構,增加瞭材料的韌性,噹G-POSS含量為7份時,雜化材料的遲擊彊度達到最大值23.8 kJ/m2,比純CE提高瞭158%;噹G-POSS含量為4份時,雜化材料的介電常數由3.27下降到3.05,達到最小;隨著G-POSS含量的增加,雜化材料的耐熱性和耐濕性均有所下降。
채용팔배양기롱형배반규양완(G-POSS)여쌍분A형청산지수지(CE)공혼제비료고성능CE/G-POSS잡화재료,고찰료불동G-POSS함량시잡화재료적역학성능、열성능、개전성능화내습성。결과표명,G-POSS개성적CE단면존재대량파문상화어린편상결구,증가료재료적인성,당G-POSS함량위7빈시,잡화재료적충격강도체도최대치23.8 kJ/m2,비순CE제고료158%;당G-POSS함량위4빈시,잡화재료적개전상수유3.27하강도3.05,체도최소;수착G-POSS함량적증가,잡화재료적내열성화내습성균유소하강。
Bisphenol-A dicyanate ester(CE)/glycidyl polyhedral oligomeric silsesquioxane(G-POSS) hybrid materials were prepared with G-POSS and CE via melting blend method.The mechanical properties,thermal performance,dielectric properties and wet fastness of the hybrid materials were studied.The results show that large amount of corrugated and scales flake structures are observed on the fractures of CE/G-POSS by SEM photos.Compared with the matrix,the toughness of hybrid materials were improved by G-POSS.When G-POSS content increases to 7 phr,the impact strength reaches the maximum volume 23.8 kJ/m2,which is 258%of that of pure CE.When G-POSS content increases to 4 phr,the dielectric constant decreases from 3.27 to the minimum value 3.05.Heat resistance and wet fastness of CE/G-POSS hybrid materials decrease with the increasing of G-POSS content.
