2018
DOI: 10.1002/pc.25178
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Multi‐scale damping of graphene foam‐based polyurethane composites synthesized by electrostatic spraying

Abstract: An electrostatic spraying technique was used to synthesize 3D graphene foam (GrF)‐reinforced polyurethane (PU) composites. Glass transition temperature (Tg) of PU increased from 120 to 148 °C after 3.3 vol% GrF addition. Strong interfacial bonding accounts for the improvement in Tg of PU‐GrF composites. Energy dissipation behavior is probed at multiple load scales to examine the intrinsic and structural damping characteristic. Micro‐scale damping at 1 mN and 1,000 Hz exhibited loss tangent value (tan δ), whic… Show more

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Cited by 5 publications
(1 citation statement)
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“…The development of 3D architecture is significantly desired to prevent the agglomeration of 2D graphene sheets. [49] Graphene foam dispersion can be considered as self-assembly of highly porous and lightweight foam which is accessible via hydrothermal and chemical vapor deposition (CVD), [50] spraying, [51] and 3D printing. [52] In this section, we thoroughly address the factors responsible for the formation of graphene foam.…”
Section: Development Of Graphene Foam (Gf)mentioning
confidence: 99%
“…The development of 3D architecture is significantly desired to prevent the agglomeration of 2D graphene sheets. [49] Graphene foam dispersion can be considered as self-assembly of highly porous and lightweight foam which is accessible via hydrothermal and chemical vapor deposition (CVD), [50] spraying, [51] and 3D printing. [52] In this section, we thoroughly address the factors responsible for the formation of graphene foam.…”
Section: Development Of Graphene Foam (Gf)mentioning
confidence: 99%