sp2carbon allotropes in elastomer matrix: From master curves for the mechanical reinforcement to lightweight materials
Articolo
Data di Pubblicazione:
2018
Abstract:
This work presents high surface area sp2 carbon allotropes as important tools to design and prepare lightweight
materials. Composites were prepared based on either carbon black (CB) or carbon nanotubes (CNT) or hybrid CB/CNT
filler systems, with either poly(1,4-cis-isoprene) or poly(styrene-co-butadiene) as the polymer matrix. A correlation was established
between the specific interfacial area (i.a.), i.e. the surface made available by the filler per unit volume of composite,
and the initial modulus of the composite (G′γmin), determined through dynamic mechanical shear tests. Experimental points
could be fitted with a common line, a sort of master curve, up to about 30.2 and 9.8 mass% as CB and CNT content, respectively.
The equation of such master curve allowed to correlate modulus and density of the composite. Thanks to the master
curve, composites with the same modulus and lower density could be designed by substituting part of CB with lower amount
of the carbon allotrope with larger surface area, CNT. This work establishes a quantitative correlation as a tool to design
lightweight materials and paves the way for large scale application in polymer matrices of innovative sp2 carbon allotropes.
materials. Composites were prepared based on either carbon black (CB) or carbon nanotubes (CNT) or hybrid CB/CNT
filler systems, with either poly(1,4-cis-isoprene) or poly(styrene-co-butadiene) as the polymer matrix. A correlation was established
between the specific interfacial area (i.a.), i.e. the surface made available by the filler per unit volume of composite,
and the initial modulus of the composite (G′γmin), determined through dynamic mechanical shear tests. Experimental points
could be fitted with a common line, a sort of master curve, up to about 30.2 and 9.8 mass% as CB and CNT content, respectively.
The equation of such master curve allowed to correlate modulus and density of the composite. Thanks to the master
curve, composites with the same modulus and lower density could be designed by substituting part of CB with lower amount
of the carbon allotrope with larger surface area, CNT. This work establishes a quantitative correlation as a tool to design
lightweight materials and paves the way for large scale application in polymer matrices of innovative sp2 carbon allotropes.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Carbon nanotubes; Dynamic moduli; Interfacial area; Lightweight material; Rubber; Chemical Engineering (all); Physical and Theoretical Chemistry; Polymers and Plastics; Organic Chemistry; Materials Chemistry2506 Metals and Alloys
Elenco autori:
Galimberti, M.; Infortuna, G.; Guerra, S.; Barbera, V.; Agnelli, S.; Pandini, S.
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