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Multiwalled carbon nanotube-high-density polyethylene

Multiwalled carbon nanotube-polypropylene Multiwalled carbon nanotube-high-density polyethylene Multiwalled carbon nanotube-polyimides Single-walled carbon nanotube-vinylene Carbon nanotube-polyether ether ketone Multiwalled carbon nanotube-polycarbonate TjOj-coated multiwalled carbon nanotube-epoxy composites Carbon nanotube polyetherimide and epoxy resins Carbon nanotube polypyrrole... [Pg.142]

Stobinski L, Lesiak B, Kover L, Toth J, Biniak S, Trykowski G, Judek J (2010) Multiwall carbon nanotubes purification and oxidation by nitric acid studied by the FTIR and electron spectroscopy methods. J Alloy Compd 501 77-84 Sudesh K, Abe H, Doi Y (2000) Synthesis, structure and properties of polyhydroxyalkanoates biological polyesters. Prog Polym Sci 25 1503-1555 Tang W, Santare MH, Advani SG (2003) Melt processing and mechanical property characterization of multi-walled carbon nanotube/high density polyethylene (MWNT/HDPE) composite films. Carbon 41 2779-2785... [Pg.107]

F. Xiang, Y. Shi, X. Li, T. Huang, C. Chen, Y. Peng, Y. Wang, Cocontinuous morphology of immiscible high density polyethylene/polyamide 6 blend induced by multiwalled carbon nanotubes network. Eur. Polymer J. 48, 350-361 (2012)... [Pg.152]

Fig. 4.1 Cyclic voltammogram showing zinc deposition and de-plating for carbon black (green line) and multiwall carbon nanotube-embedded (orange line) high-density polyethylene composite electrodes, with deposition potential (DP), cross-over potential (COP) and nucleation overpotential (NOP) indicated on diagram inset (Image adapted from [3].)... Fig. 4.1 Cyclic voltammogram showing zinc deposition and de-plating for carbon black (green line) and multiwall carbon nanotube-embedded (orange line) high-density polyethylene composite electrodes, with deposition potential (DP), cross-over potential (COP) and nucleation overpotential (NOP) indicated on diagram inset (Image adapted from [3].)...
Incorporation of 0.5% to 5% of high-density polyethylene and multiwalled carbon nanotube composites improves Young s modulus from 0.4 to 0.56 GPa, yield stress from 16.34 to 19.02 MPa, and consumed energy up to 7% strain from 4729 to... [Pg.66]

Linares A, Canalda JC, Cagiao ME, Garcia-Gutierrez MC, Nogales A, Martin-Gullon I, Vera J, Ezquerra TA (2008) Broad-band electrical conductivity of high density polyethylene nanocomposites with carbon nanoadditives multiwall carbon nanotubes and carbon nanofibers. Macnnnolecules 41 7090-7097... [Pg.98]


See other pages where Multiwalled carbon nanotube-high-density polyethylene is mentioned: [Pg.376]    [Pg.1536]    [Pg.14]    [Pg.376]   
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Carbon density

Carbon multiwalled

High-density polyethylen

High-density polyethylene

Multiwall carbon nanotubes

Multiwall nanotubes

Multiwalled nanotubes

Polyethylene carbon nanotube

Polyethylene carbonate)

Polyethylene density

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