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Multiwalled carbon nanotube-polycarbonate

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]

P. Potschke, T. D. Fornes, and D. R. Paul, Rheological behaviour of multiwalled carbon nanotube/polycarbonate composites. Polymer, 43 (2002), 3247-55. [Pg.142]

Kim, G.-M., G. H. Michler, and P. Potschke (2005b). Deformation processes of ultrahigh porous multiwalled carbon nanotubes/polycarbonate composite fibers prepared by electrospinning. Polymer 46(18) 7346-7351. [Pg.352]

Pbtschke, P., Pomes, T.D., Paul, D.R. Rheological behavior of multiwalled carbon nanotube/polycarbonate composites . Polymer 43(11) (2002) 3247-3255 Pbtschke, P., Dudkin, S.M., Ahg, I. Dielectric spectroscopy on melt processed polycarbonate-multiwalled carbon nanotube composites . Polymer 44(11) (2003), 5023-5030... [Pg.227]

Potschke, P., Pomes, T.D. and Paul, D.R. Rheological behavior of multiwalled carbon nanotube/polycarbonate composites. Polymer, 2002. 43(11) p. 3247-3255. [Pg.253]

Abdel-Goad M, Potschke P (2005) Rheological characterization of melt processed polycarbonate-multiwalled carbon nanotube composites. J Non-Newtonian Fluid Mech 128 2-6... [Pg.252]

Particles of fillers, especially nanoparticles, act as nucleating agents in polycarbonates. The crystallization of polycarbonates is significantly enhanced by the addition of fillers, such as, graphite or multiwall carbon nanotubes. ... [Pg.143]

Pegel S, Potschke P, Petzold G, Alig I, Dudkin S M and Dellinger D (2008) Dispersion, agglomeration, and network formation of multiwalled carbon nanotubes in polycarbonate melts. Polymer 49 974-984. [Pg.189]

Potschke P, Brunig H, Janke A, Fischer D and Jehnichen D (2005) Orientation of multiwalled carbon nanotubes in composites with polycarbonate by melt spinning, Pol(/mer 46 10355-10363. McNally T, Potschke P, Halley P, Murphy M, Martin D, Bell S E J, Brennan G P, Bein D, Lemoine P and Quinn J P (2005) Polyethylene multiwalled carbon nanotube composites, Polymer 46 8222-8232. [Pg.189]

Potschke P, Abdel-Goad M, Alig I, Dudkin S and Bellinger D (2004) Rheological and dielectrical characterization of melt mixed polycarbonate-multiwalled carbon nanotube composites. Polymer 45 8863-8870. [Pg.190]

Kasaliwal G R, Pegel S, Gbldel A, Potschke P and Heinrich G (2010) Analysis of agglomerate dispersion mechanisms of multiwalled carbon nanotubes during melt mixing in polycarbonate. Polymer 51 2708-2720. [Pg.190]

Schartel B, Braun U, Knoll U, Bartholmai M, Goering H, Neubert D and Potschke P (2008) Mechanical, thermal, and fire behavior of bisphenol a polycarbonate/multiwall carbon nanotube nanocomposites, Polym Eng Sci 48 149-158. [Pg.192]

Potschke P, Bhattacharyya A R and Janke A (2004) Melt mixing of polycarbonate with multiwalled carbon nanotubes microscopic studies on the state of dispersion, Eur Polym J46 137-148. [Pg.222]

Potschke P, Bhattacharyya A R and Janke A (2003) Morphology and electrical resistivity of melt mixed blends of polyethylene and carbon nanotube filled polycarbonate. Polymer 44 8061-8069. Yu M F, Lourie 0, Dryer M J, Molor K, Kelly T F and Ruoff R S (2000) Strength and breaking mechanism of multiwalled carbon nanotubes under tensile load. Science 287 637-640. [Pg.243]

Potschke P, Brunig H, Janke A, Fischer D and Jehnichen D (2005) Orientation of multiwalled carbon nanotubes in composites with polycarbonate by melt spinning. Polymer 46 10355-10363. [Pg.249]

Orientation of multiwalled carbon nanotubes (MWNT) in melt-spun fibers produced from a melt-compounded polycarbonate composite with 2 wt% MWNT using different take-up velocities TEM photomicrographs of thin sections of the fibers prepared along the fiber axis (assigned by the arrows). In all images the cut direction is 35° to the fiber axis. Varied is the take-up velocity (drawdown ratio, ddr, in brackets). (A) 50 m/min (ddr = 7.8) (B) 200 m/min (ddr = 31.4) (C) 400 m/min (ddr = 62.8) and (D) 800 m/min (ddr = 126). (From P. Potschke, H. Brunig, A. Janke, D. Fischer, and D. Jehnichen, Polymer 46,10355-10363,2005. With permission.)... [Pg.108]

Sung et al. [97] studied the electrical properties of polycarbonate-multiwalled carbon nanotubes. The multiwalled carbon nanotubes were functionalized by treatment with hydrogen peroxide. The hydrogen peroxide-treated multiwalled carbon... [Pg.141]

Schartel, B. Braun, U. Knoll, U. Bartholmai, M. Goering, H. Neubert, D. PStschke, P. Mechanical, thermal and fire behaviour of bisphenol A polycarbonate/ multiwall carbon nanotube nanocomposites. In preparation. [Pg.128]

Goldel A, Kasaliwal G, Potschke P. Selective localization and migration of multiwalled carbon nanotubes in blends of polycarbonate and poly(styrene-acrylonitrile). Macromol Rapid Commun 2009 30 423-9. Baudouin A-C, Devaux J, Bailly C. Localization of carbon nanotubes at the interface in blends of polyamide and ethylene-acrylate copolymer. Polymer 2010 51 1341-54. [Pg.235]

Potschke, R, Abdel-Goad, M., Alig, L, Dudkin, S., Lellinger, D. Rheological and dielectrical characterization of melt mixed polycarbonate-multiwalled carbon nanotube composites , Polymer 45(26) (2004), 8863-8870 McNally, T., Potschke, R, Halley, R, Murphy, M., Martin, D., Bell, S.E.J., Brennan, G.R, Bein, D., Lemoine, R, Quinn, J.R Polyethylene multiwalled carbon nanotube composites , Polymer ( 9) (2005), 8222-8232... [Pg.232]

Wang Z, Ciselli P, Peijs T (2007) The extraordinary reinforcing efficiency of single-walled carbon nanotubes in oriented poly (vinyl alcohol) tapes. Nanotechnology 18 455709 Abbasi S, Carreau PJ, Derdouri A (2010) Flow induced orientation of multiwalled carbon nanotubes in polycarbonate nanocomposites rheology, conductivity and mechanical properties. Polymer 51 922... [Pg.37]

Poetschke P, Dudkin S M and Alig I (2003) Dielectric spectroscopy on melt processed polycarbonate-multiwalled carbon nanotube composites, Polymer 44 5023-5030. Kramarenko V Y, Shantalii T A, Karpova I L, Dragan K S, Privalko E G, Privalko V P, Pragiadakis D and Pissis P (2004) Polyimides reinforced with the sol-gel derived organosilicon nanophase as low dielectric permittivity materials, Polym Adv Technol 15 144-148. [Pg.434]

In order to better understand the micromechanical behavior of carbon nanotube filled polymers, the load transfer behavior and interfacial shear stress must be quantified. This paper presents preliminary work on an experimental technique for quantifying the relative interfacial shear stress in multi-walled carbon nanotube / polycarbonate composites. The procedure provides a comparison of the aspect ratio of the nanotubes pulled from a fracture surface. In addition, the correlation with pullout angle is discussed. This work showed a decrease in the aspect ratio and thus an increase in interfacial shear as a result of chemical surface modification to multiwall nanotubes. [Pg.2901]

See other pages where Multiwalled carbon nanotube-polycarbonate is mentioned: [Pg.206]    [Pg.206]    [Pg.139]    [Pg.1536]    [Pg.13]    [Pg.771]    [Pg.110]    [Pg.112]    [Pg.142]    [Pg.142]    [Pg.521]    [Pg.186]    [Pg.151]   
See also in sourсe #XX -- [ Pg.142 ]



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