倍半硅氧烷
材料科学
多金属氧酸盐
增韧
环氧树脂
复合材料
纳米晶
断裂韧性
电介质
纳米复合材料
阻燃剂
化学工程
韧性
聚合物
催化作用
纳米技术
有机化学
化学
光电子学
工程类
作者
Xinming Ye,Xinyi Jing,Yunlan Liu,Zhiqing Han,Fan Yang,Liang Qiao,Jie Ren,Linggong Meng,Zhimao Li,Wensheng Wang,Jie Li,Yingchun Li
标识
DOI:10.1021/acsami.4c09639
摘要
as raw materials. The incorporation of 2 wt % POM(Mo)-POSS(ibu-Li) nanoflakes into EP significantly enhanced the compatibility between nanoadditives and the EP matrix. Compared with EP, the flexural and impact strengths increased by 36.2 and 78.2%, respectively. Therefore, POM(Mo)-POSS(ibu-Li) has significant advantages in enhancing the toughness of EP compared with existing flame retardants. The dielectric constant and loss were apparently reduced to meet the increasing requirements of EP-type electronic packaging materials and components. Notably, the synthesized POM(Mo)-POSS(ibu-Li) contained various flame-retardant and smoke-suppression elements such as P, Mo, and Si. The ultralow loading (2 wt %) of POM(Mo)-POSS(ibu-Li) significantly reduced the peak heat release rate, peak of smoke production rate, and CO production rate by 43.9, 40.6, and 65.8%, respectively. Meanwhile, the value of LOI increased directly from 24.0% for EP to 30.2% and passed the V-0 rating in the UL-94 test. However, incorporating 5 wt % POSS derivatives into EP alone to ensure that the prepared composites pass the V-0 rating of the UL-94 test has always been an extraordinarily difficult problem. Therefore, the dilemmas of poor dielectric properties, inherent flammability, and brittleness of EP were completely overcome through the successful application of POM(Mo)-POSS(ibu-Li) supramolecular nanosheets.
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