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Journal of Materials Science: Materials in Electronics

Erschienen in:

06.02.2016

Fabrication and characterization of OMMt/BMI/CE composites with low dielectric properties and high thermal stability for electronic packaging

verfasst von: Guanglei Wu, Yonghong Cheng, Kuikui Wang, Yiqun Wang, Ailing Feng

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 6/2016

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Abstract

Thermostable nanocomposites based on interpenetrating polymer network bismaleimide/cyanate ester (BMI/CE) copolymer, derived from bisphenol A dicyanate, 4,4′-bismaleimidodiphenyl methane, and doped by 1–5 wt% organo-modified 2D montmorillonite (OMMt) nanoparticles were synthesized and characterized using a dielectric strength tester, concept 40 impedance analyzer, scanning electron microscope (SEM), dynamic mechanical analysis, and thermogravimetric analysis techniques. OMMt improves the dispersibility, alignment and interfacial strength of these nanocomposites, the electrical conductivity increase with increasing OMMt loading, and a suitable addition of OMMt can enhance the mechanical properties and dielectric property of BMI/CE copolymer. SEM analysis shows distinct characteristics of a ductile fracture of the blends. In addition, the OMMt/BMI/CE nanocomposites have a better thermal stability and a higher thermal conductivity compared to those of BMI/CE resin with the increasing of OMMt content. All of these changes in properties are closely correlated with the OMMt/BMI/CE nanocomposites, which could form an interaction interface structure in the system.

Vorheriger Artikel Investigation and analysis of arc ablation on WCu electrical contact materials

Nächster Artikel Synthesis and thermoluminescence/optically stimulated luminescence properties of CaB4O7:Ce phosphor

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Titel: Fabrication and characterization of OMMt/BMI/CE composites with low dielectric properties and high thermal stability for electronic packaging
verfasst von: Guanglei Wu
Yonghong Cheng
Kuikui Wang
Yiqun Wang
Ailing Feng
Publikationsdatum: 06.02.2016
Verlag: Springer US
Erschienen in: Journal of Materials Science: Materials in Electronics / Ausgabe 6/2016
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI: https://doi.org/10.1007/s10854-016-4464-y

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